pipeline toolbox - 201 - technical · pdf filewhat is in the pipeline toolbox? 2. pipeline...
TRANSCRIPT
INTEGRATED SOFTWARE TOOLS FOR PIPELINE PROFESSIONALS
Pipeline Toolbox - 2014Presentation Guide
1
An integrated suite of over 75 pipeline engineering software tools that are
bull Available in Gas Liquid and Enterprise(Gas amp Liquid) versions
bull User Customizable
bull In English or Metric units (since 2011 Version)
bull Field Tested and Proven software
bull Used by Federal and State Pipeline Inspectors
What Is In The Pipeline Toolbox
2
Pipeline Engineering tools and support documents supplanted by the Toolbox
3
bull Hydraulics Facilities amp Design Calculations
bull Gas Mixture amp Liquid Properties
bull MeterRegulatorRelief Valve Sizing
bull Steel amp PE Pipe Design amp Stress Analysis
bull Testing amp Maintenance
bull Corrosion amp Cathodic Protecion
bull API 1102CrossingsWheel amp Track Load
bull DOTPHMSA Pipeline Regulations amp Forms
bull Document amp Applications Management
Examples of the Software Subjects
4
Software Positioned in the Pipeline Toolbox
Comparable to Tools in a Mechanics Tool Chest
5
ORDER OF PRESENTATION1 User Interface and Support Features
2 Applications for Design of Gas Service Features
3 Applications for Design of Liquid Service Features
4 Applications for Design of Gas or Liquid Lines
5 Problem Analysis Applications Stress Damage Corrosion
6 Applications for Operating and Testing Measurements
7 Polyethylene Pipe
6
7
8
User Interface and Support Featuresbull Toolbars bull FilesProjects Creating Organizing Saving and Re-
Opening bull F1 Key bull Utilities Modules
- Document Management System - External Application Integration - Pipe Data Bases - Physical Properties of Fluids - Engineering Units Conversion - Current Standards Regulations and DOT Forms
Help Modules- Searchable Menus - Access to Technical Toolbox Support
9
View Upon Opening the Pipeline Toolbox Title Bar Notice of Edition(Gas or Liquid) and Revision
Subject CategoryIcon Barsand the ldquoDesk Toprdquo
10
TOOLBARSSubject Category Bar for access to subject related modules
File ECDA amp Corrosion ControlPipeline Facilities Polyethylene PipeHydraulics UtilitiesSteel Pipe-Design amp Stress AnalysisSteel Pipeline Crossings Window amp Help
Icon Bar for direct access to an application For ENTERPRISE Editions the Edition Button provides a switch between GAS and LIQUID Editions
11
Basic User Steps if Hard Copy of a ldquoProjectrdquo is Wanted
12
PRINTABLE PROJECT REPORTS
bullExample project screen and printable report in ldquoWordrdquo format accessible from the Report buttonCompleted projects may also be saved in the Toolbox Edition by the ldquoSaverdquo or ldquoSaved Asrdquo button 13
Access to Saved Completed Projects for Retrieval or Deleting (File)
14
WINDOW FUNCTION (Window)To Organize Multiple Screens Open On the Desktop
Screens after Cascade Tiling
15
Example Subject Help References Accessible by the F1 Key when Executing the Subject Application
16
Utilities Modules for Embedding Documents and External Applications in the Toolbox (Utilities)
17
Pipe Database and Physical Properties of FluidsInformation Modules (Utilities)
Partial showing of 22 columns of API 5l pipe specs for 125rdquo to 80rdquo diameters
Partial List of 33 Properties of 215 Fluids
18
Engineering Units Conversion Module (Utilities)
19
20
Regualtions and Standards (Utilities)
Help Topics (Help)
bull Searchable menus for factors required for a Toolbox Application or wanted for references providing an understanding of the basis for an Applicationrsquos computed results
Example Search for soil property Ersquon
21
Help Modules (Help)
For access to Technical Toolboxes Home Page amp Support
Online Support Screen for emails to Support Personnel
22
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
An integrated suite of over 75 pipeline engineering software tools that are
bull Available in Gas Liquid and Enterprise(Gas amp Liquid) versions
bull User Customizable
bull In English or Metric units (since 2011 Version)
bull Field Tested and Proven software
bull Used by Federal and State Pipeline Inspectors
What Is In The Pipeline Toolbox
2
Pipeline Engineering tools and support documents supplanted by the Toolbox
3
bull Hydraulics Facilities amp Design Calculations
bull Gas Mixture amp Liquid Properties
bull MeterRegulatorRelief Valve Sizing
bull Steel amp PE Pipe Design amp Stress Analysis
bull Testing amp Maintenance
bull Corrosion amp Cathodic Protecion
bull API 1102CrossingsWheel amp Track Load
bull DOTPHMSA Pipeline Regulations amp Forms
bull Document amp Applications Management
Examples of the Software Subjects
4
Software Positioned in the Pipeline Toolbox
Comparable to Tools in a Mechanics Tool Chest
5
ORDER OF PRESENTATION1 User Interface and Support Features
2 Applications for Design of Gas Service Features
3 Applications for Design of Liquid Service Features
4 Applications for Design of Gas or Liquid Lines
5 Problem Analysis Applications Stress Damage Corrosion
6 Applications for Operating and Testing Measurements
7 Polyethylene Pipe
6
7
8
User Interface and Support Featuresbull Toolbars bull FilesProjects Creating Organizing Saving and Re-
Opening bull F1 Key bull Utilities Modules
- Document Management System - External Application Integration - Pipe Data Bases - Physical Properties of Fluids - Engineering Units Conversion - Current Standards Regulations and DOT Forms
Help Modules- Searchable Menus - Access to Technical Toolbox Support
9
View Upon Opening the Pipeline Toolbox Title Bar Notice of Edition(Gas or Liquid) and Revision
Subject CategoryIcon Barsand the ldquoDesk Toprdquo
10
TOOLBARSSubject Category Bar for access to subject related modules
File ECDA amp Corrosion ControlPipeline Facilities Polyethylene PipeHydraulics UtilitiesSteel Pipe-Design amp Stress AnalysisSteel Pipeline Crossings Window amp Help
Icon Bar for direct access to an application For ENTERPRISE Editions the Edition Button provides a switch between GAS and LIQUID Editions
11
Basic User Steps if Hard Copy of a ldquoProjectrdquo is Wanted
12
PRINTABLE PROJECT REPORTS
bullExample project screen and printable report in ldquoWordrdquo format accessible from the Report buttonCompleted projects may also be saved in the Toolbox Edition by the ldquoSaverdquo or ldquoSaved Asrdquo button 13
Access to Saved Completed Projects for Retrieval or Deleting (File)
14
WINDOW FUNCTION (Window)To Organize Multiple Screens Open On the Desktop
Screens after Cascade Tiling
15
Example Subject Help References Accessible by the F1 Key when Executing the Subject Application
16
Utilities Modules for Embedding Documents and External Applications in the Toolbox (Utilities)
17
Pipe Database and Physical Properties of FluidsInformation Modules (Utilities)
Partial showing of 22 columns of API 5l pipe specs for 125rdquo to 80rdquo diameters
Partial List of 33 Properties of 215 Fluids
18
Engineering Units Conversion Module (Utilities)
19
20
Regualtions and Standards (Utilities)
Help Topics (Help)
bull Searchable menus for factors required for a Toolbox Application or wanted for references providing an understanding of the basis for an Applicationrsquos computed results
Example Search for soil property Ersquon
21
Help Modules (Help)
For access to Technical Toolboxes Home Page amp Support
Online Support Screen for emails to Support Personnel
22
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Pipeline Engineering tools and support documents supplanted by the Toolbox
3
bull Hydraulics Facilities amp Design Calculations
bull Gas Mixture amp Liquid Properties
bull MeterRegulatorRelief Valve Sizing
bull Steel amp PE Pipe Design amp Stress Analysis
bull Testing amp Maintenance
bull Corrosion amp Cathodic Protecion
bull API 1102CrossingsWheel amp Track Load
bull DOTPHMSA Pipeline Regulations amp Forms
bull Document amp Applications Management
Examples of the Software Subjects
4
Software Positioned in the Pipeline Toolbox
Comparable to Tools in a Mechanics Tool Chest
5
ORDER OF PRESENTATION1 User Interface and Support Features
2 Applications for Design of Gas Service Features
3 Applications for Design of Liquid Service Features
4 Applications for Design of Gas or Liquid Lines
5 Problem Analysis Applications Stress Damage Corrosion
6 Applications for Operating and Testing Measurements
7 Polyethylene Pipe
6
7
8
User Interface and Support Featuresbull Toolbars bull FilesProjects Creating Organizing Saving and Re-
Opening bull F1 Key bull Utilities Modules
- Document Management System - External Application Integration - Pipe Data Bases - Physical Properties of Fluids - Engineering Units Conversion - Current Standards Regulations and DOT Forms
Help Modules- Searchable Menus - Access to Technical Toolbox Support
9
View Upon Opening the Pipeline Toolbox Title Bar Notice of Edition(Gas or Liquid) and Revision
Subject CategoryIcon Barsand the ldquoDesk Toprdquo
10
TOOLBARSSubject Category Bar for access to subject related modules
File ECDA amp Corrosion ControlPipeline Facilities Polyethylene PipeHydraulics UtilitiesSteel Pipe-Design amp Stress AnalysisSteel Pipeline Crossings Window amp Help
Icon Bar for direct access to an application For ENTERPRISE Editions the Edition Button provides a switch between GAS and LIQUID Editions
11
Basic User Steps if Hard Copy of a ldquoProjectrdquo is Wanted
12
PRINTABLE PROJECT REPORTS
bullExample project screen and printable report in ldquoWordrdquo format accessible from the Report buttonCompleted projects may also be saved in the Toolbox Edition by the ldquoSaverdquo or ldquoSaved Asrdquo button 13
Access to Saved Completed Projects for Retrieval or Deleting (File)
14
WINDOW FUNCTION (Window)To Organize Multiple Screens Open On the Desktop
Screens after Cascade Tiling
15
Example Subject Help References Accessible by the F1 Key when Executing the Subject Application
16
Utilities Modules for Embedding Documents and External Applications in the Toolbox (Utilities)
17
Pipe Database and Physical Properties of FluidsInformation Modules (Utilities)
Partial showing of 22 columns of API 5l pipe specs for 125rdquo to 80rdquo diameters
Partial List of 33 Properties of 215 Fluids
18
Engineering Units Conversion Module (Utilities)
19
20
Regualtions and Standards (Utilities)
Help Topics (Help)
bull Searchable menus for factors required for a Toolbox Application or wanted for references providing an understanding of the basis for an Applicationrsquos computed results
Example Search for soil property Ersquon
21
Help Modules (Help)
For access to Technical Toolboxes Home Page amp Support
Online Support Screen for emails to Support Personnel
22
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
bull Hydraulics Facilities amp Design Calculations
bull Gas Mixture amp Liquid Properties
bull MeterRegulatorRelief Valve Sizing
bull Steel amp PE Pipe Design amp Stress Analysis
bull Testing amp Maintenance
bull Corrosion amp Cathodic Protecion
bull API 1102CrossingsWheel amp Track Load
bull DOTPHMSA Pipeline Regulations amp Forms
bull Document amp Applications Management
Examples of the Software Subjects
4
Software Positioned in the Pipeline Toolbox
Comparable to Tools in a Mechanics Tool Chest
5
ORDER OF PRESENTATION1 User Interface and Support Features
2 Applications for Design of Gas Service Features
3 Applications for Design of Liquid Service Features
4 Applications for Design of Gas or Liquid Lines
5 Problem Analysis Applications Stress Damage Corrosion
6 Applications for Operating and Testing Measurements
7 Polyethylene Pipe
6
7
8
User Interface and Support Featuresbull Toolbars bull FilesProjects Creating Organizing Saving and Re-
Opening bull F1 Key bull Utilities Modules
- Document Management System - External Application Integration - Pipe Data Bases - Physical Properties of Fluids - Engineering Units Conversion - Current Standards Regulations and DOT Forms
Help Modules- Searchable Menus - Access to Technical Toolbox Support
9
View Upon Opening the Pipeline Toolbox Title Bar Notice of Edition(Gas or Liquid) and Revision
Subject CategoryIcon Barsand the ldquoDesk Toprdquo
10
TOOLBARSSubject Category Bar for access to subject related modules
File ECDA amp Corrosion ControlPipeline Facilities Polyethylene PipeHydraulics UtilitiesSteel Pipe-Design amp Stress AnalysisSteel Pipeline Crossings Window amp Help
Icon Bar for direct access to an application For ENTERPRISE Editions the Edition Button provides a switch between GAS and LIQUID Editions
11
Basic User Steps if Hard Copy of a ldquoProjectrdquo is Wanted
12
PRINTABLE PROJECT REPORTS
bullExample project screen and printable report in ldquoWordrdquo format accessible from the Report buttonCompleted projects may also be saved in the Toolbox Edition by the ldquoSaverdquo or ldquoSaved Asrdquo button 13
Access to Saved Completed Projects for Retrieval or Deleting (File)
14
WINDOW FUNCTION (Window)To Organize Multiple Screens Open On the Desktop
Screens after Cascade Tiling
15
Example Subject Help References Accessible by the F1 Key when Executing the Subject Application
16
Utilities Modules for Embedding Documents and External Applications in the Toolbox (Utilities)
17
Pipe Database and Physical Properties of FluidsInformation Modules (Utilities)
Partial showing of 22 columns of API 5l pipe specs for 125rdquo to 80rdquo diameters
Partial List of 33 Properties of 215 Fluids
18
Engineering Units Conversion Module (Utilities)
19
20
Regualtions and Standards (Utilities)
Help Topics (Help)
bull Searchable menus for factors required for a Toolbox Application or wanted for references providing an understanding of the basis for an Applicationrsquos computed results
Example Search for soil property Ersquon
21
Help Modules (Help)
For access to Technical Toolboxes Home Page amp Support
Online Support Screen for emails to Support Personnel
22
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Software Positioned in the Pipeline Toolbox
Comparable to Tools in a Mechanics Tool Chest
5
ORDER OF PRESENTATION1 User Interface and Support Features
2 Applications for Design of Gas Service Features
3 Applications for Design of Liquid Service Features
4 Applications for Design of Gas or Liquid Lines
5 Problem Analysis Applications Stress Damage Corrosion
6 Applications for Operating and Testing Measurements
7 Polyethylene Pipe
6
7
8
User Interface and Support Featuresbull Toolbars bull FilesProjects Creating Organizing Saving and Re-
Opening bull F1 Key bull Utilities Modules
- Document Management System - External Application Integration - Pipe Data Bases - Physical Properties of Fluids - Engineering Units Conversion - Current Standards Regulations and DOT Forms
Help Modules- Searchable Menus - Access to Technical Toolbox Support
9
View Upon Opening the Pipeline Toolbox Title Bar Notice of Edition(Gas or Liquid) and Revision
Subject CategoryIcon Barsand the ldquoDesk Toprdquo
10
TOOLBARSSubject Category Bar for access to subject related modules
File ECDA amp Corrosion ControlPipeline Facilities Polyethylene PipeHydraulics UtilitiesSteel Pipe-Design amp Stress AnalysisSteel Pipeline Crossings Window amp Help
Icon Bar for direct access to an application For ENTERPRISE Editions the Edition Button provides a switch between GAS and LIQUID Editions
11
Basic User Steps if Hard Copy of a ldquoProjectrdquo is Wanted
12
PRINTABLE PROJECT REPORTS
bullExample project screen and printable report in ldquoWordrdquo format accessible from the Report buttonCompleted projects may also be saved in the Toolbox Edition by the ldquoSaverdquo or ldquoSaved Asrdquo button 13
Access to Saved Completed Projects for Retrieval or Deleting (File)
14
WINDOW FUNCTION (Window)To Organize Multiple Screens Open On the Desktop
Screens after Cascade Tiling
15
Example Subject Help References Accessible by the F1 Key when Executing the Subject Application
16
Utilities Modules for Embedding Documents and External Applications in the Toolbox (Utilities)
17
Pipe Database and Physical Properties of FluidsInformation Modules (Utilities)
Partial showing of 22 columns of API 5l pipe specs for 125rdquo to 80rdquo diameters
Partial List of 33 Properties of 215 Fluids
18
Engineering Units Conversion Module (Utilities)
19
20
Regualtions and Standards (Utilities)
Help Topics (Help)
bull Searchable menus for factors required for a Toolbox Application or wanted for references providing an understanding of the basis for an Applicationrsquos computed results
Example Search for soil property Ersquon
21
Help Modules (Help)
For access to Technical Toolboxes Home Page amp Support
Online Support Screen for emails to Support Personnel
22
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
ORDER OF PRESENTATION1 User Interface and Support Features
2 Applications for Design of Gas Service Features
3 Applications for Design of Liquid Service Features
4 Applications for Design of Gas or Liquid Lines
5 Problem Analysis Applications Stress Damage Corrosion
6 Applications for Operating and Testing Measurements
7 Polyethylene Pipe
6
7
8
User Interface and Support Featuresbull Toolbars bull FilesProjects Creating Organizing Saving and Re-
Opening bull F1 Key bull Utilities Modules
- Document Management System - External Application Integration - Pipe Data Bases - Physical Properties of Fluids - Engineering Units Conversion - Current Standards Regulations and DOT Forms
Help Modules- Searchable Menus - Access to Technical Toolbox Support
9
View Upon Opening the Pipeline Toolbox Title Bar Notice of Edition(Gas or Liquid) and Revision
Subject CategoryIcon Barsand the ldquoDesk Toprdquo
10
TOOLBARSSubject Category Bar for access to subject related modules
File ECDA amp Corrosion ControlPipeline Facilities Polyethylene PipeHydraulics UtilitiesSteel Pipe-Design amp Stress AnalysisSteel Pipeline Crossings Window amp Help
Icon Bar for direct access to an application For ENTERPRISE Editions the Edition Button provides a switch between GAS and LIQUID Editions
11
Basic User Steps if Hard Copy of a ldquoProjectrdquo is Wanted
12
PRINTABLE PROJECT REPORTS
bullExample project screen and printable report in ldquoWordrdquo format accessible from the Report buttonCompleted projects may also be saved in the Toolbox Edition by the ldquoSaverdquo or ldquoSaved Asrdquo button 13
Access to Saved Completed Projects for Retrieval or Deleting (File)
14
WINDOW FUNCTION (Window)To Organize Multiple Screens Open On the Desktop
Screens after Cascade Tiling
15
Example Subject Help References Accessible by the F1 Key when Executing the Subject Application
16
Utilities Modules for Embedding Documents and External Applications in the Toolbox (Utilities)
17
Pipe Database and Physical Properties of FluidsInformation Modules (Utilities)
Partial showing of 22 columns of API 5l pipe specs for 125rdquo to 80rdquo diameters
Partial List of 33 Properties of 215 Fluids
18
Engineering Units Conversion Module (Utilities)
19
20
Regualtions and Standards (Utilities)
Help Topics (Help)
bull Searchable menus for factors required for a Toolbox Application or wanted for references providing an understanding of the basis for an Applicationrsquos computed results
Example Search for soil property Ersquon
21
Help Modules (Help)
For access to Technical Toolboxes Home Page amp Support
Online Support Screen for emails to Support Personnel
22
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
7
8
User Interface and Support Featuresbull Toolbars bull FilesProjects Creating Organizing Saving and Re-
Opening bull F1 Key bull Utilities Modules
- Document Management System - External Application Integration - Pipe Data Bases - Physical Properties of Fluids - Engineering Units Conversion - Current Standards Regulations and DOT Forms
Help Modules- Searchable Menus - Access to Technical Toolbox Support
9
View Upon Opening the Pipeline Toolbox Title Bar Notice of Edition(Gas or Liquid) and Revision
Subject CategoryIcon Barsand the ldquoDesk Toprdquo
10
TOOLBARSSubject Category Bar for access to subject related modules
File ECDA amp Corrosion ControlPipeline Facilities Polyethylene PipeHydraulics UtilitiesSteel Pipe-Design amp Stress AnalysisSteel Pipeline Crossings Window amp Help
Icon Bar for direct access to an application For ENTERPRISE Editions the Edition Button provides a switch between GAS and LIQUID Editions
11
Basic User Steps if Hard Copy of a ldquoProjectrdquo is Wanted
12
PRINTABLE PROJECT REPORTS
bullExample project screen and printable report in ldquoWordrdquo format accessible from the Report buttonCompleted projects may also be saved in the Toolbox Edition by the ldquoSaverdquo or ldquoSaved Asrdquo button 13
Access to Saved Completed Projects for Retrieval or Deleting (File)
14
WINDOW FUNCTION (Window)To Organize Multiple Screens Open On the Desktop
Screens after Cascade Tiling
15
Example Subject Help References Accessible by the F1 Key when Executing the Subject Application
16
Utilities Modules for Embedding Documents and External Applications in the Toolbox (Utilities)
17
Pipe Database and Physical Properties of FluidsInformation Modules (Utilities)
Partial showing of 22 columns of API 5l pipe specs for 125rdquo to 80rdquo diameters
Partial List of 33 Properties of 215 Fluids
18
Engineering Units Conversion Module (Utilities)
19
20
Regualtions and Standards (Utilities)
Help Topics (Help)
bull Searchable menus for factors required for a Toolbox Application or wanted for references providing an understanding of the basis for an Applicationrsquos computed results
Example Search for soil property Ersquon
21
Help Modules (Help)
For access to Technical Toolboxes Home Page amp Support
Online Support Screen for emails to Support Personnel
22
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
8
User Interface and Support Featuresbull Toolbars bull FilesProjects Creating Organizing Saving and Re-
Opening bull F1 Key bull Utilities Modules
- Document Management System - External Application Integration - Pipe Data Bases - Physical Properties of Fluids - Engineering Units Conversion - Current Standards Regulations and DOT Forms
Help Modules- Searchable Menus - Access to Technical Toolbox Support
9
View Upon Opening the Pipeline Toolbox Title Bar Notice of Edition(Gas or Liquid) and Revision
Subject CategoryIcon Barsand the ldquoDesk Toprdquo
10
TOOLBARSSubject Category Bar for access to subject related modules
File ECDA amp Corrosion ControlPipeline Facilities Polyethylene PipeHydraulics UtilitiesSteel Pipe-Design amp Stress AnalysisSteel Pipeline Crossings Window amp Help
Icon Bar for direct access to an application For ENTERPRISE Editions the Edition Button provides a switch between GAS and LIQUID Editions
11
Basic User Steps if Hard Copy of a ldquoProjectrdquo is Wanted
12
PRINTABLE PROJECT REPORTS
bullExample project screen and printable report in ldquoWordrdquo format accessible from the Report buttonCompleted projects may also be saved in the Toolbox Edition by the ldquoSaverdquo or ldquoSaved Asrdquo button 13
Access to Saved Completed Projects for Retrieval or Deleting (File)
14
WINDOW FUNCTION (Window)To Organize Multiple Screens Open On the Desktop
Screens after Cascade Tiling
15
Example Subject Help References Accessible by the F1 Key when Executing the Subject Application
16
Utilities Modules for Embedding Documents and External Applications in the Toolbox (Utilities)
17
Pipe Database and Physical Properties of FluidsInformation Modules (Utilities)
Partial showing of 22 columns of API 5l pipe specs for 125rdquo to 80rdquo diameters
Partial List of 33 Properties of 215 Fluids
18
Engineering Units Conversion Module (Utilities)
19
20
Regualtions and Standards (Utilities)
Help Topics (Help)
bull Searchable menus for factors required for a Toolbox Application or wanted for references providing an understanding of the basis for an Applicationrsquos computed results
Example Search for soil property Ersquon
21
Help Modules (Help)
For access to Technical Toolboxes Home Page amp Support
Online Support Screen for emails to Support Personnel
22
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
User Interface and Support Featuresbull Toolbars bull FilesProjects Creating Organizing Saving and Re-
Opening bull F1 Key bull Utilities Modules
- Document Management System - External Application Integration - Pipe Data Bases - Physical Properties of Fluids - Engineering Units Conversion - Current Standards Regulations and DOT Forms
Help Modules- Searchable Menus - Access to Technical Toolbox Support
9
View Upon Opening the Pipeline Toolbox Title Bar Notice of Edition(Gas or Liquid) and Revision
Subject CategoryIcon Barsand the ldquoDesk Toprdquo
10
TOOLBARSSubject Category Bar for access to subject related modules
File ECDA amp Corrosion ControlPipeline Facilities Polyethylene PipeHydraulics UtilitiesSteel Pipe-Design amp Stress AnalysisSteel Pipeline Crossings Window amp Help
Icon Bar for direct access to an application For ENTERPRISE Editions the Edition Button provides a switch between GAS and LIQUID Editions
11
Basic User Steps if Hard Copy of a ldquoProjectrdquo is Wanted
12
PRINTABLE PROJECT REPORTS
bullExample project screen and printable report in ldquoWordrdquo format accessible from the Report buttonCompleted projects may also be saved in the Toolbox Edition by the ldquoSaverdquo or ldquoSaved Asrdquo button 13
Access to Saved Completed Projects for Retrieval or Deleting (File)
14
WINDOW FUNCTION (Window)To Organize Multiple Screens Open On the Desktop
Screens after Cascade Tiling
15
Example Subject Help References Accessible by the F1 Key when Executing the Subject Application
16
Utilities Modules for Embedding Documents and External Applications in the Toolbox (Utilities)
17
Pipe Database and Physical Properties of FluidsInformation Modules (Utilities)
Partial showing of 22 columns of API 5l pipe specs for 125rdquo to 80rdquo diameters
Partial List of 33 Properties of 215 Fluids
18
Engineering Units Conversion Module (Utilities)
19
20
Regualtions and Standards (Utilities)
Help Topics (Help)
bull Searchable menus for factors required for a Toolbox Application or wanted for references providing an understanding of the basis for an Applicationrsquos computed results
Example Search for soil property Ersquon
21
Help Modules (Help)
For access to Technical Toolboxes Home Page amp Support
Online Support Screen for emails to Support Personnel
22
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
View Upon Opening the Pipeline Toolbox Title Bar Notice of Edition(Gas or Liquid) and Revision
Subject CategoryIcon Barsand the ldquoDesk Toprdquo
10
TOOLBARSSubject Category Bar for access to subject related modules
File ECDA amp Corrosion ControlPipeline Facilities Polyethylene PipeHydraulics UtilitiesSteel Pipe-Design amp Stress AnalysisSteel Pipeline Crossings Window amp Help
Icon Bar for direct access to an application For ENTERPRISE Editions the Edition Button provides a switch between GAS and LIQUID Editions
11
Basic User Steps if Hard Copy of a ldquoProjectrdquo is Wanted
12
PRINTABLE PROJECT REPORTS
bullExample project screen and printable report in ldquoWordrdquo format accessible from the Report buttonCompleted projects may also be saved in the Toolbox Edition by the ldquoSaverdquo or ldquoSaved Asrdquo button 13
Access to Saved Completed Projects for Retrieval or Deleting (File)
14
WINDOW FUNCTION (Window)To Organize Multiple Screens Open On the Desktop
Screens after Cascade Tiling
15
Example Subject Help References Accessible by the F1 Key when Executing the Subject Application
16
Utilities Modules for Embedding Documents and External Applications in the Toolbox (Utilities)
17
Pipe Database and Physical Properties of FluidsInformation Modules (Utilities)
Partial showing of 22 columns of API 5l pipe specs for 125rdquo to 80rdquo diameters
Partial List of 33 Properties of 215 Fluids
18
Engineering Units Conversion Module (Utilities)
19
20
Regualtions and Standards (Utilities)
Help Topics (Help)
bull Searchable menus for factors required for a Toolbox Application or wanted for references providing an understanding of the basis for an Applicationrsquos computed results
Example Search for soil property Ersquon
21
Help Modules (Help)
For access to Technical Toolboxes Home Page amp Support
Online Support Screen for emails to Support Personnel
22
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
TOOLBARSSubject Category Bar for access to subject related modules
File ECDA amp Corrosion ControlPipeline Facilities Polyethylene PipeHydraulics UtilitiesSteel Pipe-Design amp Stress AnalysisSteel Pipeline Crossings Window amp Help
Icon Bar for direct access to an application For ENTERPRISE Editions the Edition Button provides a switch between GAS and LIQUID Editions
11
Basic User Steps if Hard Copy of a ldquoProjectrdquo is Wanted
12
PRINTABLE PROJECT REPORTS
bullExample project screen and printable report in ldquoWordrdquo format accessible from the Report buttonCompleted projects may also be saved in the Toolbox Edition by the ldquoSaverdquo or ldquoSaved Asrdquo button 13
Access to Saved Completed Projects for Retrieval or Deleting (File)
14
WINDOW FUNCTION (Window)To Organize Multiple Screens Open On the Desktop
Screens after Cascade Tiling
15
Example Subject Help References Accessible by the F1 Key when Executing the Subject Application
16
Utilities Modules for Embedding Documents and External Applications in the Toolbox (Utilities)
17
Pipe Database and Physical Properties of FluidsInformation Modules (Utilities)
Partial showing of 22 columns of API 5l pipe specs for 125rdquo to 80rdquo diameters
Partial List of 33 Properties of 215 Fluids
18
Engineering Units Conversion Module (Utilities)
19
20
Regualtions and Standards (Utilities)
Help Topics (Help)
bull Searchable menus for factors required for a Toolbox Application or wanted for references providing an understanding of the basis for an Applicationrsquos computed results
Example Search for soil property Ersquon
21
Help Modules (Help)
For access to Technical Toolboxes Home Page amp Support
Online Support Screen for emails to Support Personnel
22
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Basic User Steps if Hard Copy of a ldquoProjectrdquo is Wanted
12
PRINTABLE PROJECT REPORTS
bullExample project screen and printable report in ldquoWordrdquo format accessible from the Report buttonCompleted projects may also be saved in the Toolbox Edition by the ldquoSaverdquo or ldquoSaved Asrdquo button 13
Access to Saved Completed Projects for Retrieval or Deleting (File)
14
WINDOW FUNCTION (Window)To Organize Multiple Screens Open On the Desktop
Screens after Cascade Tiling
15
Example Subject Help References Accessible by the F1 Key when Executing the Subject Application
16
Utilities Modules for Embedding Documents and External Applications in the Toolbox (Utilities)
17
Pipe Database and Physical Properties of FluidsInformation Modules (Utilities)
Partial showing of 22 columns of API 5l pipe specs for 125rdquo to 80rdquo diameters
Partial List of 33 Properties of 215 Fluids
18
Engineering Units Conversion Module (Utilities)
19
20
Regualtions and Standards (Utilities)
Help Topics (Help)
bull Searchable menus for factors required for a Toolbox Application or wanted for references providing an understanding of the basis for an Applicationrsquos computed results
Example Search for soil property Ersquon
21
Help Modules (Help)
For access to Technical Toolboxes Home Page amp Support
Online Support Screen for emails to Support Personnel
22
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
PRINTABLE PROJECT REPORTS
bullExample project screen and printable report in ldquoWordrdquo format accessible from the Report buttonCompleted projects may also be saved in the Toolbox Edition by the ldquoSaverdquo or ldquoSaved Asrdquo button 13
Access to Saved Completed Projects for Retrieval or Deleting (File)
14
WINDOW FUNCTION (Window)To Organize Multiple Screens Open On the Desktop
Screens after Cascade Tiling
15
Example Subject Help References Accessible by the F1 Key when Executing the Subject Application
16
Utilities Modules for Embedding Documents and External Applications in the Toolbox (Utilities)
17
Pipe Database and Physical Properties of FluidsInformation Modules (Utilities)
Partial showing of 22 columns of API 5l pipe specs for 125rdquo to 80rdquo diameters
Partial List of 33 Properties of 215 Fluids
18
Engineering Units Conversion Module (Utilities)
19
20
Regualtions and Standards (Utilities)
Help Topics (Help)
bull Searchable menus for factors required for a Toolbox Application or wanted for references providing an understanding of the basis for an Applicationrsquos computed results
Example Search for soil property Ersquon
21
Help Modules (Help)
For access to Technical Toolboxes Home Page amp Support
Online Support Screen for emails to Support Personnel
22
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Access to Saved Completed Projects for Retrieval or Deleting (File)
14
WINDOW FUNCTION (Window)To Organize Multiple Screens Open On the Desktop
Screens after Cascade Tiling
15
Example Subject Help References Accessible by the F1 Key when Executing the Subject Application
16
Utilities Modules for Embedding Documents and External Applications in the Toolbox (Utilities)
17
Pipe Database and Physical Properties of FluidsInformation Modules (Utilities)
Partial showing of 22 columns of API 5l pipe specs for 125rdquo to 80rdquo diameters
Partial List of 33 Properties of 215 Fluids
18
Engineering Units Conversion Module (Utilities)
19
20
Regualtions and Standards (Utilities)
Help Topics (Help)
bull Searchable menus for factors required for a Toolbox Application or wanted for references providing an understanding of the basis for an Applicationrsquos computed results
Example Search for soil property Ersquon
21
Help Modules (Help)
For access to Technical Toolboxes Home Page amp Support
Online Support Screen for emails to Support Personnel
22
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
WINDOW FUNCTION (Window)To Organize Multiple Screens Open On the Desktop
Screens after Cascade Tiling
15
Example Subject Help References Accessible by the F1 Key when Executing the Subject Application
16
Utilities Modules for Embedding Documents and External Applications in the Toolbox (Utilities)
17
Pipe Database and Physical Properties of FluidsInformation Modules (Utilities)
Partial showing of 22 columns of API 5l pipe specs for 125rdquo to 80rdquo diameters
Partial List of 33 Properties of 215 Fluids
18
Engineering Units Conversion Module (Utilities)
19
20
Regualtions and Standards (Utilities)
Help Topics (Help)
bull Searchable menus for factors required for a Toolbox Application or wanted for references providing an understanding of the basis for an Applicationrsquos computed results
Example Search for soil property Ersquon
21
Help Modules (Help)
For access to Technical Toolboxes Home Page amp Support
Online Support Screen for emails to Support Personnel
22
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Example Subject Help References Accessible by the F1 Key when Executing the Subject Application
16
Utilities Modules for Embedding Documents and External Applications in the Toolbox (Utilities)
17
Pipe Database and Physical Properties of FluidsInformation Modules (Utilities)
Partial showing of 22 columns of API 5l pipe specs for 125rdquo to 80rdquo diameters
Partial List of 33 Properties of 215 Fluids
18
Engineering Units Conversion Module (Utilities)
19
20
Regualtions and Standards (Utilities)
Help Topics (Help)
bull Searchable menus for factors required for a Toolbox Application or wanted for references providing an understanding of the basis for an Applicationrsquos computed results
Example Search for soil property Ersquon
21
Help Modules (Help)
For access to Technical Toolboxes Home Page amp Support
Online Support Screen for emails to Support Personnel
22
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Utilities Modules for Embedding Documents and External Applications in the Toolbox (Utilities)
17
Pipe Database and Physical Properties of FluidsInformation Modules (Utilities)
Partial showing of 22 columns of API 5l pipe specs for 125rdquo to 80rdquo diameters
Partial List of 33 Properties of 215 Fluids
18
Engineering Units Conversion Module (Utilities)
19
20
Regualtions and Standards (Utilities)
Help Topics (Help)
bull Searchable menus for factors required for a Toolbox Application or wanted for references providing an understanding of the basis for an Applicationrsquos computed results
Example Search for soil property Ersquon
21
Help Modules (Help)
For access to Technical Toolboxes Home Page amp Support
Online Support Screen for emails to Support Personnel
22
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Pipe Database and Physical Properties of FluidsInformation Modules (Utilities)
Partial showing of 22 columns of API 5l pipe specs for 125rdquo to 80rdquo diameters
Partial List of 33 Properties of 215 Fluids
18
Engineering Units Conversion Module (Utilities)
19
20
Regualtions and Standards (Utilities)
Help Topics (Help)
bull Searchable menus for factors required for a Toolbox Application or wanted for references providing an understanding of the basis for an Applicationrsquos computed results
Example Search for soil property Ersquon
21
Help Modules (Help)
For access to Technical Toolboxes Home Page amp Support
Online Support Screen for emails to Support Personnel
22
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Engineering Units Conversion Module (Utilities)
19
20
Regualtions and Standards (Utilities)
Help Topics (Help)
bull Searchable menus for factors required for a Toolbox Application or wanted for references providing an understanding of the basis for an Applicationrsquos computed results
Example Search for soil property Ersquon
21
Help Modules (Help)
For access to Technical Toolboxes Home Page amp Support
Online Support Screen for emails to Support Personnel
22
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
20
Regualtions and Standards (Utilities)
Help Topics (Help)
bull Searchable menus for factors required for a Toolbox Application or wanted for references providing an understanding of the basis for an Applicationrsquos computed results
Example Search for soil property Ersquon
21
Help Modules (Help)
For access to Technical Toolboxes Home Page amp Support
Online Support Screen for emails to Support Personnel
22
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Help Topics (Help)
bull Searchable menus for factors required for a Toolbox Application or wanted for references providing an understanding of the basis for an Applicationrsquos computed results
Example Search for soil property Ersquon
21
Help Modules (Help)
For access to Technical Toolboxes Home Page amp Support
Online Support Screen for emails to Support Personnel
22
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Help Modules (Help)
For access to Technical Toolboxes Home Page amp Support
Online Support Screen for emails to Support Personnel
22
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
23
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
24
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Applications for Design of Gas Service Features
or analysis of existing features as applicable
bull Hydraulics
bull Design Pressure and Wall Thickness
bull Pipeline Compressors and Station Piping
bull Reinforcement of Welded Branch Connection
bull Meters and Regulator Station Sizing
bull Relief Valve Sizing
bull Hot Tap Sizing
bull Relief Valve Reactive Force
25
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
HydraulicsScreen for selecting 1 of 4 unknowns to be
calculated by 1 of 11 Flow Equations (Hydraulics)
Panhandle A and B
Weymouth
AGA Fully Turbulent Flow
Colebrook White
FM-Fundamental Equation
IGT Distribution Equation
Mueller- High and Low Pressure
Pittsburg
Splitzglass 26
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Examples Panhandle A and B for Downstream Pressure (Hydraulics)
27
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Examples Colebrook White andFM Fundamental for Flow Rate (Hydraulics)
28
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
(Hydraulics)
Examples Muellar High gt 1 psig and Low Pressure Distribution for Internal Pipe Diameter
29
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
B318 Design Pressure amp Minimum Wall Thickness(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
30
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Centrifugal CompressorsAdiabatic Head amp Adiabatic Required HP
(Pipeline Facilities)(Pipeline Compressors)
31
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Centrifugal Compressor - Fan LawsReciprocating Compressor ndash Cylinder Capacity amp HP
(Pipeline Facilities)(Pipeline Compressors)
32
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Compressor Station Piping Diameter and Minimum Wall Thickness
(Pipeline Facilities)(Pipeline Compressors)
33
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
ASME B318 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
34
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Meters and Regulators ndash Station Sizing(Pipeline Facilities)(Meters amp Regulators)
35
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Relief Valve Sizing Relief Valve Reactive Force and Hot Tap Sizing(Pipeline Facilities)
36
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
37
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
38
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Applications for Design of Liquid Service Features
or problem solving as applicable
bull Hydraulics
bull Design Pressure and Minimum Wall Thickness
bull Pipeline Pumps and Station Piping
bull B314 Reinforcement of Welded Branch Connection
bull Relief Valve Sizing and Reactive Force
39
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Hydraulics (Liquid Pipeline Hydraulics)
Screen for selecting a wanted unknown to be calculated by 1 of 6 Flow Equations
bull Six Flow Equationsbull Darcy ndash Weisbachbull Colebrook Whitebull Hazen-Williamsbull Heltzelbull TR Audebull ShellMIT
40
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Examples Darcy -Weisbach and Colebrook-White for Upstream Pressure (Hydraulics)
41
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Examples Hetzel and Hazen-Williamsfor Internal Pipe Diameter (Hydraulics)
42
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Examples TR Aude for Flow Rate andShellMIT for Downstream Pressure (Hydraulics)
43
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
For a Wanted psimile Pressure dropDarcy-Weisbach Equation (Hydraulics)
44
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Steel Pipe Design Pressure and Minimum Wall Thickness(Pipeline Facilities)(Pipeline Pumps)
45
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Pipeline Pumps Required Horsepower based on Total Head or Differential Pressure
(Pipeline Facilities)(Pipeline Pumps)
46
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Variable Speed Pumping Affinity Laws amp Changing Impeller Size and Speed
(Pipeline Facilities)(Pipeline Pumps)
47
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Pump Specific Speed Suction Specific Speed and Temperature Rise Due to Pumping
(Pipeline Facilities)(Pipeline Pumps)
48
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Reciprocating Pumps CapacityAcceleration Head and Piston Rod Load
(Pipeline Facilities)(Pipeline Pumps)
49
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Pump Station Piping Pipe Wall Thickness Average Flow Velocity per Pipe Internal Diameter
(Pipeline Facilities)(Pipeline Pumps)
50
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
ASME B314 Reinforcement of Welded Branch Connection (Pipeline Facilities)(Reinforcement)
51
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
API 520- Liquid Relief Valve Sizing(Pipeline Facilities)(Pipeline Facilities)
Valves Requiring Capacity Certification Valves Not Requiring Certification
52
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Relief Valve Reactive Force(Pipeline Facilities)(Pipeline Facilities)
53
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
54
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
55
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
56
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Applications for DesignGas or Liquid Line Features
or problem analysis as applicable
bull Pipe Buoyancy
bull Allowable Pipe Span Length
bull Pipe Anchoring
bull Flume Design
bull HDD Crossing Stresses
bull Highway and Railroad Crossings
bull Cathodic Protection
57
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Buoyancy - Concrete Coating Requirements(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
58
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Buoyancy Requirements - Spacing of Concrete Weights(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
59
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Maximum Allowable Pipe Span Length(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
60
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Pipe Anchor Force Analysis(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
61
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Flume Design(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
62
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
HDD Pull Force and Installation Stress Analysis133 Page PRCI ndash Design Guide Imbedded in APP
(Steel Pipe-Design amp Stress Analysis)(Steel Pipeline-Design amp Stress Analysis)
63
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
HDDPipeInstallation and Site Characteristics Screens
64
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
HDD Pull Force and Stress Analysis Screens
65
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Operating Stress Analysis of a CrossingInstalled by HDD
66
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
API 1102 Design of Highway and Railroad Crossings(Steel Pipeline Crossings)
1st - Pipe and Operational Characteristics Screen Identical for Highway and Railroad Crossings less than 42 inches OD
bull Liquid Edition App does not require Location class Temperature or Longitudinal Factors
67
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Crossing Installation amp Site Characteristics Highways and Railroads Screens
68
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Stress and Fatigue Factor Results Highways and Railroads Screens
69
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
GPTC GuidendashDesign of Uncased Crossings(Steel Pipeline Crossings)
70
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Cathodic Protection - Site Design(ECDA amp Corrosion Control)(Cathodic Protection)
71
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Cathodic ProtectionSite Design amp Anode Placement(ECDA amp Corrosion Control)(Cathodic Protection)
72
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Estimated Weight of a Single Magnesium Anode(ECDA amp Corrosion Control)(Cathodic Protection)
73
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
74
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
75
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Problem Analysis Applications
- Stress- Damage - Corrosion
76
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Problem Analysis - Stress- Internal Pressure per Percent of SMYS - Hoop amp Longitudinal Stress - Bending Stress and Deflection - Linear Thermal Expansion - Stress Caused by Fluid Flowing Around Pipe- Requirements to Move Unpressurized Pipe
Movement of In Service Pipelines- PipeBlast Module ndash Blasting Analysis - Heavy Loads Crossing a Pipeline- Stresses on Restrained or Unrestrained Gas
and Liquid Lines - Liquid Line Surge Analysis
77
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Hoop amp Longitudinal Stress
Internal Pressure-Percent of SMYS (Steel Pipe-Design amp Stress Analysis)
78
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
79
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Linear Thermal Expansion (or Contraction)
Bending Stress Caused by Fluid Flowing Around Pipe
80
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Requirements to Move Unpressurized Pipe
81
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Movement of in Service Pipelines ndash API RP 1117 slide 1 of 2
82
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Movement of in Service Pipelines ndash slide 2 of 22 of 2
83
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
PipeBlast- Blasting Analysis (A Tool Kit of Special Apps and Project Files within the Tool Box for stresses from five potential arrangements of explosive charges)
Screens for a Single Explosive Charge and a Parallel Grid of Charges
84
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Wheel Load Analysis(Steel Pipeline Crossings)
85
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Track Load Analysis(Steel Pipeline Crossings)
86
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Stress Analysis Restrained and Unrestrained Gas Pipelines
87
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Stress Analysis Restrained and Unrestrained Liquid Pipelines
88
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Surge Analysis ndash Water Hammer- Slide 1 of 2 (Liquid ndash Hydraulics)
Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screens 1 amp 2 of 5
89
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Surge Analysis ndash Water Hammer - Slide 2 of 2 Analysis of surge in 10 miles of 24 inch line flowing 15000 BPH - Screen 3
Screens 4 and 5 Graphs of Flow and Pressure per Duration of Surge
90
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Problem Analysis - Damage- Maximum Impact Load amp Penetration Depth - Potential Impact Radius - Gas Line Rupture Analysis - Accidental Gas amp Liquid Pipeline Releases
91
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Maximum Impact Load amp Penetration Depth ( Steel Pipe-Stress Analysis)
92
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Potential Impact Radius (ECDA amp Corrosion Control) (ECDA Toolset) (PIRampDCVG)
Gas Pipeline Rupture Analysis (Steel Pipe-Design amp Stress Analysis)
93
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Accidental Gas Release thru small hole
94
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Accidental Release Rate from Liquid Hydrocarbon Pipeline(Liquid) (Steel Pipe Design amp Stress Analysis)
95
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Problem Analysis ndash Corrosion(ECDA amp Corrosion Control)
- RSTRENG for Windows Module- External Corrosion Direct Assessment Toolset
and Remaining Life of Corroded Pipe- ANSI B31G-1991 Evaluation of MAOP - ANSI B31G Maximum Allowable Longitudinal
Corrosion - Current Flow amp Resistance Equations
96
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
97
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
RSTRENG-New File Data Input Screens
98
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
99
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
100
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
101
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
ECDAA Remaining Life of Corroded Pipe
B Practical Guidelines for Conducting ECDA Program 123 page instructional report
C ECDA ndash Direct Examination Worksheet ndash 8 page template
102
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
PIPELINE CORROSION
ANSI B31G ndash 1991 Evaluation of MAOP in Corroded Areas
ANSI B31G ndash 1991 Maximum Allowable Longitudinal Corrosion
103
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Rate of Current Flowthrough the Corrosion Cell
Relationship between Resistance and Resistivity
Electrolyte Resistance from from Surface of an Electrode
Electrical Resistance of a Conductor
Ohmrsquos Law for Corrosion Current
PIPELINE CORROSION (ECDA amp Corrosion Control)
104
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
DCVG-IR Drop (ECDA amp Corrosion Control)(Toolset)
105
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
106
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
107
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Applications for Operating and Testing Measurements
bull Hydrostatic Testing
bull Weld Imperfection Assessment
bull Gas Property Calculations
bull Liquid Property Calculations
bull Orifice Meter Flow Rate Calculations
108
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Hydrostatic Testing Volume to Fill amp Test and Max Pressure Drop
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
109
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
API 1104 ndash Appendix A Option 2 Weld Imperfection Assessment
(Steel Pipe-Design amp Stress Analysis) ( Pipeline Testing amp Miscellaneous)
110
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Gas Mixture Property Calculations17 Properties per 3 Base Conditions
(Utilities)
111
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Liquid Property Calculations (Utilities)Database of Liquid Specifications Viscosity Temperature RelationsVolume Correction Factors cStSaybolt -oAPIBaume Specific Gravity
112
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Liquid Property Calculations (Utilities)
Adiabatic Bulk Modulus for Hydrocarbons Wave Speed in Pipeline Hydrocarbons Compressibility
113
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Orifice Meters Flow Rate CalculationsAGA 3 Methods 1 and 2
(Pipeline Facilities) ( Meters amp Regulators)
114
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
115
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
116
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
117
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Polyethylene Pipebull PE Pipe Design amp PE Pipeline Crossings
bull Installation of PE Pipelines by Horizontal Directional Drilling
118
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
PE Pipe Design amp PE Pipeline CrossingsDesign Pressure ndash Polyethylene Pipe
Minimum Wall Thickness Polyethylene Pipe
119
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Distributed Static Surcharge Load PE Pipe Directly amp Not Directly Beneath
120
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Live Loads Aircraft Landings and Highway Traffic
121
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Live Single Wheel Load on Buried PE Pipe
Live Multiple Wheel Load over Buried PE Pipe
122
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Live Loads on PE PipeDistributed Surface Load over Unpaved Road ndash Timoshenkorsquos Equation
123
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Live Load Cooper E-8- Railroad Load on Buried PE
124
(ECDA amp Corrosion Control
Installation of PE Pipelines by HDD
125
Installation of PE Pipelines by HDD
125