appea guidelines for liting equipment combined)
TRANSCRIPT
Australian Petroleum Production & Exploration Association Limited
Level 3, 24 Marcus Clarke Street GPO Box 2201
CANBERRA ACT 2600 CANBERRA ACT 2601
Telephone: +61 2 6247 0960 Facsimile: +61 2 6247 0548
INTERNET: http://www.appea.com.au Email: [email protected]
ACN 000 292 713 ISBN 0 908277 21 0
GUIDELINES FOR
LIFTING EQUIPMENT
Issued: March 2000
Last amended: June 2001
APPEA Guidelines for Lifting Equipment
PREFACE
Lifting operations in the offshore petroleum industry represent potentially one of the highest riskactivities in the industry. Accordingly many standards and individual company guidelines exist toensure that lifting operations are performed safely using appropriate equipment.
As well as offshore lifting this guideline does cover some aspects of lifting operations at onshoresites. In particular personnel competency requirements, registers of lifting equipment andoperational aspects for lifting devices including mobile cranes are covered. During the preparationof the guideline the technical working group recognised that onshore lifting practices weregenerally well established and that a uniform standard already existed. This guideline is intendedonly to supplement and does not seek to alter these well established onshore lifting practices.
APPEA has issued these guidelines to facilitate consistent lifting practices across the petroleumindustry, particularly for offshore operations. These guidelines establish appropriate designrequirements for “Lifting Gear” reflecting the dynamic effects of lifting operations from supplyvessels along with guidance on equipment marking, registers, inspection testing and maintenance.They also describe the broad expectations for competencies of personnel associated with liftingactivities.
These guidelines generally reference Australian Standards, however the use of equivalentinternationally recognised standards is also acceptable.
Disclaimer
The use of these Guidelines does not in any way diminish the responsibility of individualoperating companies or, their contractors to carry out operations safely having due regard totheir duty of care responsibilities, and to observe statutory requirements. APPEA does not acceptany responsibility for any incident or consequence thereof, whether or not in violation of any lawor regulation, which arises or is alleged to have arisen from the use of these Guidelines.
Amendments
Date Amendment By Reason for AmendmentOct 2000 Additional Padeye Chart (App E) D. Williams Additional informationMay 2001 Rigging Equipment Example (App E) D. Williams Error in calculationJun 2001 Rigging Equipment Example (App E) L. Gray Error in calculation
APPEA Guidelines for Lifting Equipment
CONTENTS
1 INTRODUCTION ............................................................................................................................................ 1
1.1 PURPOSE ........................................................................................................................................................ 11.2 SCOPE ............................................................................................................................................................ 11.3 LIFTING EQUIPMENT TERMINOLOGY................................................................................................................ 21.4 RELATIONSHIP WITH REGULATIONS................................................................................................................. 31.5 MANAGEMENT SYSTEM .................................................................................................................................. 3
2 COMPETENCY STANDARDS....................................................................................................................... 4
2.1 MANAGEMENT RESPONSIBILITIES.................................................................................................................... 42.2 COMPETENCE OF EQUIPMENT OPERATORS ....................................................................................................... 42.3 MAINTAINERS OF LIFTING EQUIPMENT ............................................................................................................ 42.4 INSPECTORS OF LIFTING EQUIPMENT ............................................................................................................... 5
2.4.1 Pre-use visual checks............................................................................................................................ 52.4.2 Certified visual inspections ................................................................................................................... 5
2.5 NON DESTRUCTIVE TESTING (NDT) LABORATORIES........................................................................................ 52.5.1 Proof Load Testing Organisations......................................................................................................... 5
2.6 DESIGNERS & VERIFIERS OF RIGGING FOR ENGINEERED LIFTS, OF LIFTED EQUIPMENT, AND OF LIFTING
DEVICES.................................................................................................................................................................. 6
3 REGISTERS OF LIFTING EQUIPMENT ..................................................................................................... 7
3.1 INTRODUCTION ............................................................................................................................................... 73.2 LIFTING EQUIPMENT REGISTER ....................................................................................................................... 73.3 LIFTING EQUIPMENT REGISTER CONTENTS ...................................................................................................... 7
4 DESIGN OF OFFSHORE LIFTING DEVICES ............................................................................................. 9
4.1 INTRODUCTION AND SCOPE ............................................................................................................................. 94.2 DESIGN, MANUFACTURE AND INSTALLATION (GENERAL) ................................................................................ 94.3 CRANES.......................................................................................................................................................... 94.4 MOBILE CRANES .......................................................................................................................................... 104.5 GANTRY CRANES, MONORAILS & DAVITS..................................................................................................... 104.6 LIFTING POINTS ............................................................................................................................................ 104.7 HOISTING EQUIPMENT (MANUALLY OPERATED) ............................................................................................ 114.8 MAN-RIDING EQUIPMENT ............................................................................................................................. 11
4.8.1 Cranes Used for Man Riding Operations............................................................................................. 114.8.2 Winches.............................................................................................................................................. 124.8.3 Man Riding Winches ........................................................................................................................... 12
4.9 SURVEYS AND INSPECTION............................................................................................................................ 124.10 DOCUMENTATION ......................................................................................................................................... 13
5 DESIGN OF OFFSHORE LIFTING GEAR................................................................................................. 14
5.1 INTRODUCTION ............................................................................................................................................. 145.2 DESIGN APPROACH FOR ENGINEERED LIFTS................................................................................................... 145.3 OVER CHART LIFTS ...................................................................................................................................... 155.4 DESIGN OF RIGGING...................................................................................................................................... 155.5 ACCESS TO CRANE HOOK FOR MARINE CREWS – FIFTH LEG ASSEMBLIES....................................................... 185.6 DIAGONALLING ............................................................................................................................................ 185.7 SPECIFIC REQUIREMENTS FOR OFFSHORE USE ............................................................................................... 19
5.7.1 Synthetic Slings (Refer AS 1353.17.2-1997, AS 4497.1&.2 -1997)........................................................ 195.7.2 Safety Shackles ................................................................................................................................... 195.7.3 Eyebolts.............................................................................................................................................. 195.7.4 Chain Slings ....................................................................................................................................... 195.7.5 Wire Rope Slings ................................................................................................................................ 19
5.8 DESIGN OF OFFSHORE CONTAINER PAD EYES & THEIR ATTACHMENT ............................................................ 20
APPEA Guidelines for Lifting Equipment
5.9 DESIGN OF LIFTED EQUIPMENT (OFFSHORE CONTAINERS).............................................................................. 205.10 ISO CONTAINERS USED AS LIFTED EQUIPMENT.............................................................................................. 215.11 DESIGN OF SUB-SEA LIFTS ............................................................................................................................ 225.12 MATERIALS OF CONSTRUCTION AND FABRICATION REQUIREMENTS ............................................................... 225.13 DOCUMENTATION – NEW BUILD LIFTED EQUIPMENT ..................................................................................... 235.14 DOCUMENTATION FOR EXISTING LIFTED EQUIPMENT..................................................................................... 245.15 INITIAL LOAD TESTS FOR LIFTED EQUIPMENT ................................................................................................ 255.16 NON DESTRUCTIVE TESTING (OFFSHORE CONTAINERS INCLUDING ISO CONTAINERS) .................................... 25
6 DESIGN OF TANKS FOR FLUIDS.............................................................................................................. 26
7 MARKING OF LIFTING EQUIPMENT...................................................................................................... 27
7.1 GENERAL ..................................................................................................................................................... 277.2 MARKING OF LIFTING DEVICES ..................................................................................................................... 27
7.2.1 Fixed Location Pad Eyes..................................................................................................................... 277.3 MARKING OF LIFTED EQUIPMENT .................................................................................................................. 277.4 CONTAINER AND ROOF IDENTIFICATION MARKINGS ...................................................................................... 277.5 LIFTING FRAME AND BEAM MARKINGS ......................................................................................................... 287.6 MARKING OF RIGGING .................................................................................................................................. 28
8 PERIODIC INSPECTION, TESTING AND MAINTENANCE ................................................................... 29
8.1 GENERAL ..................................................................................................................................................... 298.2 LIFTING DEVICES.......................................................................................................................................... 30
8.2.1 Inspection Before and After Proof Loading.......................................................................................... 308.3 LIFTED EQUIPMENT ...................................................................................................................................... 308.4 RIGGING....................................................................................................................................................... 31
8.4.1 Proof Loading of Rigging used for Offshore Lifting (Boat Lifts) (ON HOLD) ....................................... 318.5 REPAIRS AND MODIFICATIONS TO LIFTING EQUIPMENT .................................................................................. 32
9 SAFE OPERATING PROCEDURES............................................................................................................ 33
9.1 LIFTING OPERATIONS BETWEEN PLATFORMS AND VESSELS ............................................................................ 339.1.1 Planning............................................................................................................................................. 339.1.2 Communications ................................................................................................................................. 339.1.3 Lift Preparation and Handling ............................................................................................................ 33
9.2 PERSONNEL TRANSFERS................................................................................................................................ 349.2.1 Authority ............................................................................................................................................ 349.2.2 Duties................................................................................................................................................. 349.2.3 Suitability of the vessel........................................................................................................................ 359.2.4 Weather conditions ............................................................................................................................. 369.2.5 Communications ................................................................................................................................. 369.2.6 Safety equipment and rescue procedures ............................................................................................. 369.2.7 Training ............................................................................................................................................. 36
APPENDIX A .............................................................................................. ERROR! BOOKMARK NOT DEFINED.
REFERENCE DOCUMENTS............................................................................ERROR! BOOKMARK NOT DEFINED.
APPENDIX B .............................................................................................. ERROR! BOOKMARK NOT DEFINED.
DEFINITIONS ..................................................................................................ERROR! BOOKMARK NOT DEFINED.
APPENDIX C .............................................................................................. ERROR! BOOKMARK NOT DEFINED.
OFFSHORE WIRE ROPE AND CHAIN SLINGS .............................................ERROR! BOOKMARK NOT DEFINED.
APPENDIX D .............................................................................................. ERROR! BOOKMARK NOT DEFINED.
DYNAMIC AMPLIFICATION FACTOR..........................................................ERROR! BOOKMARK NOT DEFINED.
APPENDIX E............................................................................................... ERROR! BOOKMARK NOT DEFINED.
PAD EYE DETAILS ............................................................................................ERROR! BOOKMARK NOT DEFINED.
APPEA Guidelines for Lifting Equipment
APPENDIX F............................................................................................... ERROR! BOOKMARK NOT DEFINED.
INSPECTION & TESTING REQUIREMENTS .................................................ERROR! BOOKMARK NOT DEFINED.
APPENDIX G .............................................................................................. ERROR! BOOKMARK NOT DEFINED.
GUIDE TO AUSTRALIAN AND INTERNATIONAL STANDARDS...............ERROR! BOOKMARK NOT DEFINED.
APPENDIX H .............................................................................................. ERROR! BOOKMARK NOT DEFINED.
GUIDELINES FOR THE PHASE OUT OF ISO SHIPPING CONTAINERS OFFSHOREERROR! BOOKMARK NOT DEFINED
APPENDIX I................................................................................................ ERROR! BOOKMARK NOT DEFINED.
GUIDELINES FOR THE INSPECTION, TESTING AND MARKING OF OFFSHORE CONTAINERSERROR! BOOKMARK NOT DEFINED
APPEA Guidelines for Lifting Equipment
Page 1
1 INTRODUCTION
1.1 Purpose
To provide operators, contractors and vendors working in the offshore petroleum industry clear andconsistent guidance on the expected standards for design, manufacture, supply and use of liftingequipment. These guidelines are intended to ensure safe lifting operations, thereby minimising risksto personnel and assets.
1.2 Scope
These guidelines apply to “Lifting Equipment” used on and in the following offshore explorationand production facilities and onshore loading facilities:
• platforms;
• floating production units;
• floating production, storage and offloading (FPSO) facilities;
• mobile offshore drilling units (MODUs);
• supply vessels;
• construction vessels;
• diving support vessels;
• seismic vessels;
• buoys; and
• onshore loading facilities and supply bases.
These guidelines do not apply to specialised lifting devices used in the following activities:
• pipe laying activities;
• specialised wireline operations (ie. winches, wireline units, etc);
• specialised drilling rig equipment (ie. draw-works assembly, travelling blocks, drillingswivels, etc);
• heavy lift activities from construction barges;
• helicopter external lifting.
• escape craft
Most of the “Lifting Devices” used in drilling related operations are addressed in relevant APIstandards or IADC guidelines.
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1.3 Lifting Equipment Terminology
LIFTING DEVICES
LIFTING EQUIPMENT
LIFTING GEAR
RIGGING
Wire ropes
Wire rope slings
Chain Slings
Flat synthetic webbing slings
Wire coil flat slings
Polyester round slings
Shackles
Hooks
Clamps
Rings
Swivels
Hammer locks
Sockets
Blocks
Stingers
LIFTED
EQUIPMENT
Cranes
(Mobile crane, Tower crane,
Overhead crane, Hoist)
Chain Hoist
Cherry Picker
Davit
Forklift
In-situ lifting beam
Jack
Lever Hoist
Loading arm
Monorail.
Pad eyes
Trolley
Winch
Bulk liquid tanks
Open freight containers
Closed freight containers
Workshops
Laboratories
Storage containers
Mini containers
Pallets
Open top bins
Skips
Baskets
Personnel Baskets
Gas cylinder racks
Spreader frames
Equipment skids
Long stock container
Modules
Padeyes Section
Lifting points & supporting members ofsubsea manifolds, Christmas trees &
subsea valves
Lifting points and supporting membersof machinery
(skids, valves etc)
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1.4 Relationship with Regulations
The majority of Australian legislation covering safety critical equipment such as “LiftingEquipment” is now objective based. This includes the Petroleum (Submerged Lands) (Managementof Safety on Offshore Facilities) Regulations 1996 and regulations issued under the various Stateand Federal Safety and Occupational Health legislation. As such, these guidelines are structured insuch a way as to provide guidance to the offshore petroleum industry on “good industry practice”.These guidelines are not to be interpreted as industry “best practice” or minimum standards. Theonus of demonstrating that risks have been reduced to as low as reasonably practicable remains withthe individual operator or contractor.
Offshore petroleum exploration and development in Australia comes under the jurisdiction of theCommonwealth and State or Territory Petroleum (Submerged Lands) Acts. Depending on the leaselocation, regulations under the Act may be directly administered by the State or Territory oradministered by the State or Territory on behalf of the Commonwealth (as a Designated Authority).
For offshore operations supply vessels, work boats, offtake tankers, etc, come under the NavigationAct 1912 and Marine Orders parts 43, 44 (section 11 only), and 59. Marine Orders part 32 is notapplicable to offshore lifting. Similarly when MODUs, FPSOs, FPUs, construction barges enterAustralian waters they fall under the Navigation Act. When they are moored at drill site they fallunder the P(SL)A in addition to the Navigation Act, but immediately on leaving the mooring theyrevert back to the Navigation Act. Loading and unloading operations at offshore facilities aregoverned by the P(SL)A which is administered by the relevant state or territory department.Operators attention is also drawn to the AMSA publication “Australian Offshore Vessels – Code ofSafe Working Practice”.
To demonstrate compliance with the Petroleum (Submerged Lands) (Management of Safety onOffshore Facilities) Regulations 1996, operators must ensure they have an effective integratedSafety Management System (SMS). Safety Management System requirements as defined under theSafety Case regime in place should identify, assess, eliminate and/or manage risk to as low asreasonably practicable.
1.5 Management System
Organisations using these guidelines should have in place a formal “Lifting EquipmentManagement System”.
This management system would as a minimum demonstrate how the organisation manages:
• responsibilities for key personnel;
• registration and trace-ability of “Lifting Equipment” within its control or use;
• design, fabrication and supply of “Lifting Equipment”;
• inspection and maintenance of “Lifting Equipment” under its control;
• safe use of “Lifting Equipment”;
• training and competencies of personnel;
• contractor or third party owned “Lifting Equipment”; and
• auditing of this management system.
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2 COMPETENCY STANDARDS
2.1 Management Responsibilities
Management should ensure that personnel operating “Lifting Equipment” have the requiredcompetencies and are familiar with specific “Lifting Equipment” and work practices used at eachfacility. This may include the following:
• awareness of relevant codes, standards and guidelines;
• awareness of relevant competency standards;
• knowledge of “Lifting Equipment” used on the facility;
• lift planning procedures;
• requirements for pre-use equipment checks;
• requirements for moving loads around the facility;
• routine inspection and maintenance requirements;
• procedures for loading and unloading supply vessels; and
• procedures for personnel transfer operations.
2.2 Competence of Equipment Operators
Equipment operators, including but not limited to crane and fork lift operators, riggers and doggersworking within Australia and/or Australian waters are required to hold a certificate of competencyissued by either a recognised State Authority or a National Licence issued under the “NationalOccupational Health and Safety Certification Standard for Users and Operators of IndustrialEquipment” (Note: The referenced publication, NOHSC:1006-1992, is available from the NationalOccupational Health and Safety Commission).
Such personnel shall be familiar and competent with facility specific “Lifting Equipment” and workpractices.
2.3 Maintainers of Lifting Equipment
Management should ensure that maintenance of “Lifting Equipment” is carried out by suitablyqualified and competent personnel, who have knowledge of the following areas:
• awareness of the relevant standards and regulations;
• site specific requirements and procedures;
• maintenance requirements on all types of “Lifting Equipment” to be maintained;
• inspection frequency requirements;
• detailed inspections requirements for all “Lifting Equipment”;
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• discard criteria; and
• disposal processes for failed equipment.
2.4 Inspectors of Lifting Equipment
2.4.1 Pre-use visual checks
Competent persons, holding a certificate of competency relevant to the type of equipment, are tocarry out a pre-use visual check each time the equipment is used.
2.4.2 Certified visual inspections
A "certified visual inspection" is more detailed inspection than a visual check and is carried out on aperiodic frequency, the results of which are documented and recorded in the facility "LiftingEquipment" Register. Certified visual inspection shall be conducted by one of the following:
• Classification Societies with industry accepted inspection standards for "Lifting Equipment"(eg. DNV, Lloyds etc.); or
• A "body" holding NATA Inspection accreditation to ISO 17020 for in-service inspection of"Lifting Equipment" to these guidelines. Note: Personnel certification for inspection of liftingequipment may be developed in the future by AIDNT, AICIP or similar organisations; or
• Suitably qualified people working within an Operator's inspection program where the Operatorworks within a Safety Case regime which addresses the requirements for training of suchpersonnel and the standards for such "certified visual inspections".
Refer to Section 8 and Appendix I for further details of the "certified visual inspection".
All "certified visual inspection" reports should bear the endorsement stamp of the accreditationbody (NATA), the Classification Society, or be issued in the form required by the Operator for in-house "certified visual inspection".
2.5 Non Destructive Testing (NDT) Laboratories
During initial fabrication, repairs and modifications as well as part of the periodic inspectionprocess, NDT inspection of “Lifting Equipment” shall be conducted by:
• A “body” holding NATA laboratory accreditation to ISO 17025 for Non DestructiveTesting.
All NDT reports should bear the endorsement stamp of the appropriate NDT accreditation body(NATA).
2.5.1 Proof Load Testing Organisations
Proof load testing organisations shall hold accreditation to these guidelines for the relevant class ofproof load testing. Proof load testing of “Lifting Equipment” shall be conducted by one of thefollowing bodies:
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• Classification Societies with industry accepted proof load standards for “LiftingEquipment” (eg. DNV, Lloyds etc.);
OR
• A “body” holding NATA laboratory accreditation to ISO 17025 for proof load testing of“Lifting Equipment” to these guidelines.
OR
• Suitably qualified people working within an Operator's inspection program where theOperator works within a Safety Case regime which addresses the requirements for trainingof such personnel and the standards for such proof load testing.
All proof load testing reports should bear the endorsement stamp of the appropriate proof loadtesting accreditation body (NATA) or Classification Society.
Accreditation should be reviewed to ensure that it covers the equipment to be tested.
2.6 Designers & Verifiers of Rigging for Engineered Lifts, of Lifted Equipment, and ofLifting Devices
Designers & Verifiers of Rigging for Engineered Lifts, of Lifted Equipment, and of Lifting Devicesshould be qualified engineers experienced in offshore lifting technology.
The design & verification of "Lifted Equipment” and Engineered Lifts should be conducted byeither:
• A "body" holding ISO 9001 certification for design and who have qualified structural engineersexperienced in offshore lifting to carry out the design and also the checking of "LiftedEquipment". A written certificate shall be provided on the design documentation by the "designbody" that it holds ISO 9001 qualification for structural design and that the design conforms to astandard recognised under these Guidelines.
OR
• Where the "design body" does not hold ISO 9001 certification for design, then the design is tobe certified by a classification society, ie Lloyds, DNV etc. In this case all designdocumentation should bear the endorsement stamp of the appropriate Classification Society.
(This section applies also to subsequent Sections 4.2, 5.1, 5.3, 5.8, 5.9, and 5.14 of theseGuidelines.)"
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3 REGISTERS OF LIFTING EQUIPMENT
3.1 Introduction
Each facility or group of facilities shall maintain a register or registers of all types of “LiftingEquipment” used on site and owned by the operator. Likewise, contractors should maintain aregister of their “Lifting Equipment” on each facility. This is a statutory requirement for vesselsoperating under the Navigation Act 1912.
All suppliers of “Lifting Equipment” that is leased to offshore operators and/or contractors shouldalso maintain a register of all such equipment.
3.2 Lifting Equipment Register
A register, as a minimum, shall contain an inventory of all “Lifting Equipment” present on or at thefacility (this is equipment that effectively “belongs” to the facility).
The register of “Lifting Equipment” may be in an electronic format or in the form of a card or otherpaper register system. Register systems should identify the location of all hard copy records ofdesign verifications, inspection certificates, maintenance records, test certificates, etc.
Because of varied recording requirements the register should be split into equipment types orClasses, eg. “Lifting Devices” (cranes, pad eyes, etc), “Lifted Equipment” (containers, baskets, etc)and Rigging (slings, shackles, etc).
3.3 Lifting Equipment Register Contents
The register is expected to contain the following entries as applicable for each item of equipment:
• a full description of the equipment;
• the safe working load (SWL) of the item or maximum gross mass (MGM) as applicable;
• the unique identification or tag number for the item;
• manufacturer’s serial numbers;
• batch number of the item if applicable;
• the location (or reference to the drawing showing the location - particularly for pad eyes)of the item. The usage of the item (eg. stores unloading, engine room general lifting etc);
• date of entry onto the register;
• whether a Certificate of Conformity is required for the item;
• a copy of the Certificate of Conformity, or number of, approval bodies and date of issue;
• the location of the design verification certificate and documentation;
• whether a certificate of inspection is required;
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• the inspection certificate number, issuing body and date of issue;
• for cranes, winches, containers, special “Lifting Equipment”, pad eyes etc, the design andfabrication codes and the location of the manufacturer data report;
• for “Lifting Gear”, the national standard to which the item was purchased;
• re-inspection interval; and
• reference to the approved maintenance and operating manual for the item.
These entries shall be supported (as applicable) with the following traceable hard copy records asissued by an inspection body holding accreditation with NATA in accordance with these guidelinesor a Classification Society with industry accepted design and inspection standards for “LiftingEquipment”:
• certificate of design verification;
• current certificate of inspection;
• type test certificate;
• manufacturers test certificate/s (for “Lifted Equipment”);
• the maintenance and inspection records (including the past inspection reports for visualinspections, calibrations, adjustments, change out of equipment etc); and
• proof load test and NDT reports.
Where applicable, these entries shall be supported with traceable hard copy records of thefollowing:
• original manufacturer’s data report; and
• original design calculations.
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4 DESIGN OF OFFSHORE LIFTING DEVICES
4.1 Introduction and Scope
This section provides guidance on “Lifting Devices”, as defined in Section 1.3, and their associatedequipment installed or erected on offshore facilities.
4.2 Design, Manufacture and Installation (General)
“Lifting Devices” should be suitable for their intended purpose and should be of sound design,construction, suitable material, of adequate strength and free from defects.
Equipment should be designed with due regard to the intended use with or near other equipment andfor safe use under known operating conditions, including any overload conditions which may beanticipated, (ie. proof load testing, etc.). Where relevant, the equipment should have efficientcontrol systems, guards, fences and shields. Particular consideration should be given to theeffectiveness of mountings on all “Lifting Devices”.
The design of “Lifting Devices” should be consistent in its approach with that used to design the“Lifted Equipment” and Rigging, (ie. a device designed to API codes, with rigging to DNV codesand equipment to AS codes, may provide an inconsistent application of factors of safety and failureload paths through the lift).
The lifting device designer as specified in section 2.6, should be consulted when any of thefollowing actions are being considered:
• initial design;
• modifications to any “Lifting Devices”;
• repairs to safety-critical elements of “Lifting Devices”; and
• testing or overload testing of “Lifting Devices” after repair or modification.
4.3 Cranes
The detailed design of offshore cranes is beyond the scope of this document and is normallycompleted by the specialist crane supplier. Common acceptable standards specified for offshorecranes are:
• API Spec 2C Specification for Offshore Cranes;
• Lloyds Code for Lifting Appliances in a Marine Environment, together with BS2573Rules for the Design of Cranes; and
• AS1418 Crane Code.
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4.4 Mobile Cranes
Mobile cranes offshore should be classed as temporary mobile equipment and should only be usedfor the purpose agreed by the operating company, the owner and a competent person.
Where mobile cranes are used for operations subject to sea-state induced dynamics, they shouldgenerally comply with Section 4.3. The following items should also be considered:
• permissible locations (ie. area of safe operation) including adequacy of supportingstructure;
• barriers to prevent the crane colliding with other parts of the installation, or topplingoverboard;
• safe limits of operation on floating installations and any associated means of stowing orsecuring the crane in adverse weather conditions;
• means of securing while lifting from supply vessels or any other sea-state operation;
• dynamic effects and de-rating for sea state operations;
• stability of the vessel on which the crane is being operated;
• inspection of safety-critical structural and mechanical components; and
• details should be included in an appropriate manual addressing the use of the mobile cranein offshore operations.
4.5 Gantry Cranes, Monorails & Davits
Gantry cranes, monorails, davits (other than escape craft davits) etc. should be designed,constructed and tested in accordance with a recognised standard, supplemented with any specificconditions of use (such as operational sea-state and/or maximum list/trim and roll/pitch). Any suchconditions of use should be made clearly visible to the operator of the crane and also be stated in anappropriate manual for the equipment.
Gantry cranes should be fitted with end limit switches and mechanical stops for all travel motions.If travel speeds are sufficiently low to warrant over-travel being arrested by mechanical end stopsonly, then approval for this mode of operation should be obtained from a competent person.
4.6 Lifting Points
Permanently attached lifting points should be designed to AS4100 or equivalent and be subject toinspection, NDT and load testing in accordance with these guidelines.
The design of lifting points such as pad eyes, pad-ears, lifting lugs, etc. should incorporate themagnitude, direction and effects of load distribution.
The design of the surrounding structure to which lifting points are affixed should allowtransmission of the load from the lifting point to the surrounding structure.
Adequate clearances should be provided between the pad eye and the rigging. Lifting points shouldbe free from any detrimental defects caused by oxy-cutting, arc welding, etc.
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Testing of pad eyes, lifting lugs etc. should be agreed with a competent person and carried out tocomply with the current requirements.
Refer to Section 5.8 and Appendix E for pad eye detail.
4.7 Hoisting Equipment (Manually Operated)
Manually operated hoisting equipment should be designed, manufactured, tested and marked inaccordance with recognised codes and standards (Appendix G).
Pawls for the ratchet mechanism should either be spring-loaded or engagement with the ratchetensured by other positive means. Engagement should not depend solely on gravity alone.
Hand chains should be smooth and free from rough areas. The effort required to operate manualhoisting equipment should not exceed that which one person can comfortably exert from a standingposition.
4.8 Man-Riding Equipment
4.8.1 Cranes Used for Man Riding Operations
The following guidance applies to cranes used for personnel lifting. Outline guidance on proceduresfor transfer of personnel by basket is provided in Section 9.2.
• Free fall operations of the hoist or boom motion are not permitted.
• Winding gear should be equipped with a brake, mechanically operable under all loadconditions.
• The design braking force should be at least 120% of the braking force required to supportthe stipulated test overload.
• Dynamic braking effects due to hydraulic transmission systems should not be considered asa mechanical brake when using cranes for man-riding operations.
• The brake should be automatically applied when the drive is in the "off" or the "neutral"position.
• Any change-speed gearbox should be of constant mesh type whereby it should not bepossible to change the gear ratio while there is any load on the winch.
• Clutches or other means of disengaging the drive train are prohibited for this type ofoperation.
• Brake action should be progressive in order to avoid sudden dynamic shock.
• The brake should be applied automatically upon failure of the power supply to the motorand/or control device.
• Upper & Lower limits shall be fitted to the hoist motion
• An emergency stop or secondary brake should be fitted and be operable by the driver in anemergency situation involving man-riding operations to arrest all crane motions. Asecondary brake should be applied directly at the drum and not through gear boxes, geartrains etc. The brake need only be of a size sufficient for arresting the loading of persons andthe basket, together with some dynamic allowance. In the event of failure of the primemover to re-start, it should be possible to recover the load by manual means.
• Cranes which are suitable for man-riding duties should be clearly marked "SUITABLE FORMAN-RIDING DUTIES" at the crane operator's control location.
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4.8.2 Winches
All winches should be designed:
• with winch controls that automatically return to neutral on release in any operatingposition; and
• with automatic brakes which will apply whenever the operating lever is returned to neutralor on loss of power; and
• without a clutch or other device capable of disengaging the drive.
4.8.3 Man Riding Winches
Winches to be used for man-riding duties should additionally be designed:
• with a secondary brake to prevent the load from falling in the event of failure of theautomatic brake;
• with devices to prevent the winch rope from over- winding or under-winding;
• with provision for spooling the wire on the drum to prevent damage or entanglement, thismay include the provision of sufficient fleet angle to ensure the wire spools correctly;
• to be capable of lowering the load in the event of an emergency, such as loss of power;
• with a brake holding which is less than the minimum breaking load of the rope and morethan the maximum line pull of the winch in the man-riding mode of operation; if a highload is applied to the winch, the brake must render before the breaking load of the rope isreached; and
• with a suitable guard over the drum to provide protection to the operator in the event ofrope breakage. Such a guard should not inhibit the ability of the operator to see thespooling action of the rope on the drum.
All man-riding winches shall be clearly labelled "SUITABLE FOR MAN -RIDING".
4.9 Surveys and Inspection
In determining the scope and extent of surveys, due account should be taken of applicablelegislative requirements and the various recommendations on examinations or tests given in thissection, together with the results of any such examinations or tests previously carried out.
For cranes, at least one full load test should be witnessed by a competent person.
Where examinations or tests are proposed for the purpose (or consideration) of crane certification,the competent person should be consulted in advance with a view to agreeing the basis for theiracceptance. Agreement that the results of the examinations or tests are recorded and reported in amanner that meets this purpose should also be sought from the competent person.
Surveys may need to be brought forward if the competent person is of the opinion that a crane hasexperienced excessive loading or overloading.
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4.10 Documentation
An appropriate operations manual should contain particulars of the relevant “Lifting Devices”. As aminimum, the contents should include general arrangements for the machinery and equipment,wiring and piping diagrams where appropriate, and instructions for the operation of the devices. Themanual should contain operating limits, checks and test procedures, which are required to be carriedout to ensure safe operation of the equipment.
Any special instruction for safe operation of appliances, such as those for man-riding winches insection 4.8, should be noted.
All “Lifting Devices” should have an appropriate maintenance manual which gives details ofservicing, repair, essential spares holdings and any special tools required for maintenance purposes.
All “Lifting Devices” should be provided with a test certificate containing the followinginformation:
• type description;
• model description;
• serial number;
• description;
• classification of mechanism (where powered);
• rated capacity of hoisting or hauling;
• test load applied;
• name and address of manufacturer;
• name and status of signatory; and
• date of equipment test & date of issue of certificate.
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5 DESIGN OF OFFSHORE LIFTING GEAR
5.1 Introduction
This section of the guidelines covers the general requirements for the design of “Lifting Gear” asdistinct from “Lifting Devices” such as cranes, winches, etc. Guidelines for the design of “LiftingDevices” for offshore use are presented in Section 4.
Rigging can be selected by equipment users from manufacturers handbooks provided the factors ofsafety given in section 5.4 below are met and the load does not exceed approximately 25 tonnes (thearbitrarily selected limit for Engineering Lifts). It is anticipated that in due course rigging supplierswill have catalogues available of “Lifting Gear” suitable for offshore lifting.
Where offshore loads exceed 25 tonnes an engineered lift should be considered [refer to AS 1666.2(1995), section 9c]. In these cases design of all “Lifting Gear” should be performed by qualifiedengineers experienced in offshore lifting.
With respect to the design of “Lifted Equipment” regardless of the lifted load, it is expected that thedesign will be performed by “qualified engineers experienced in offshore lifting”. Refer to clause2.6 for competency requirements.
5.2 Design Approach for Engineered Lifts
For the design of “Lifting Gear” to be used for an engineered lift the design engineer’s tasks shouldinclude but not be limited to:
• ensuring that design criteria are acceptable to the user of the “Lifting Equipment”; and
• addressing all relevant design conditions including transport, installation, loading &unloading, operation, temperature and fatigue considerations.
The design should consider but not be limited to:
• weight uncertainty;• weight growth potential;• uncertainty in Centre of Gravity;• dynamic amplification factor (DAF) ;• diagonalling effects;• local eccentricities arising from pad eye connection details;• drag loads on equipment to be lifted in water;• reviewing the load Radius Chart for the “Lifting Device” (Crane) taking into account the
weight of crane rope over the head sheave, the weight of the hook and hook block, and theweight of the rigging as part of the load weight;
• maximum hoist speed;• Wave height and period.• Wind speed
For engineered lifts where the rigging for a particular load has been specifically designed therigging requirements shall be noted in a work order or preferably attached to the load (eg, a platewhich reads "For Rigging requirement refer to Drg. No. ... ").
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5.3 Over Chart Lifts
An "over chart" lift (ie. a lift that exceed the load radius curves for the crane in question) is anengineered lift and an analysis shall be carried out in close liaison with the “Lifting Equipment”manufacturer, the installation contractor and the Operator. The Dynamic Amplification Factor(DAF) may be reduced by limiting the sea state in which the lift can be carried out. In the case ofdeck or onshore lifts the hoisting speed can be controlled to limit the dynamic effects.
These limitations shall be clearly shown on the design drawings, which are to be duly signed"Accepted for Lift" by the engineer accepting overall responsibility.
For offshore lifts, codes such as "DNV Marine Operations Part 2 Chapter 5" and "Lloyd’s Code forLifting Appliances in a Marine Environment" provide guidance.
5.4 Design of Rigging
These guidelines vary the required factors of safety for rigging depending on whether the rigging isto be used offshore or onshore. The dynamic factors of safety are based on findings of the fieldstudy “Investigation of Dynamic Amplification Effects During Offshore Lifting” Reference 65.Non-dynamic factors of safety are addressed in a discussion paper on “Factors of Safety for LiftingSlings used in Offshore Supply Boat Operations” Reference 64.
The following equation is based on a similar equation provided in AS 1666.2 (1995) section 9 andincludes a material factor (Rm) such that it can be used universally for both chain and wire ropeslings.
The SWL of an offshore sling assembly shall be calculated from the equation:
SWL = (Rc Rm Rt Ro) x P Equation 1. 4 x 9.81
WhereSWL = Safe Working Load of an offshore sling assembly (in tonnes)P = Minimum Breaking Force (kN) for the individual rope,
chain or webbing which comprises the assembly
Rc = Factor for Sling Assembly Configuration (refer Table 1 AS1666.2 (1995))
Rm = Material Factor (refer Table 5.4.1 )
Rt = Termination Factor (refer Table 5.4.2 )
Ro = Operational Factor (refer Table 5.4.3 )
Table 5.4.1 Material Factor (Rm)
Sling Type Rm
Chain and Lifting Components (Ref AS3775) 1.0
Wire Rope 1.0
Flat Synthetic Webbing Slings 0.57
Round Synthetic Slings 0.57
Shackles (Grades S&T Only) 0.80
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Table 5.4.2 Termination Factor (Rt)
Sling Type Rt
Chain and Lifting Components (Ref AS3776) 1.0
Wire Rope 1.0 - 0.8
(refer Table 2 AS 1666.2 1995)
Flat Webbing 0.875
Round Slings 1.0
Shackles 1.0
Table 5.4.3 Operational Factor (Ro)Type of Operation (Ro)
Onshore, Inshore or Platform Lift 1.0
Offshore Lift (Hs max 3.0m)
Lift Weight ≤ 6 tonnes
6 tonnes < Lift Weight ≤ 10 tonnes
10 tonnes < Lift Weight ≤ 25 tonnes
0.69
0.69-0.81
0.81-0.92
Personnel Lift 0.40
Note: 1. For Lift Weight > 6 tonnes, Ro may be obtained by linear interpolation between the parameters specified.2. Where the lift weight is not measured, the uncertainty of the lift weight shall be
considered.3. Where the Factor of Safety for wire ropes, predicted herein, is less than the
Factor of Safety as specified in AS1666(1995) the greater value shall be applied. 4. Hs ; Significant wave Height
The Safe Working Load (SWL) can also be expressed in terms of a Factor of Safety (FOS):
SWL = Rc P FOS x 9.81
WhereFOS = 4/(Rm Rt Ro) Equation. 2
Where the Factor of Safety as specified in Equation 2 is less than the Factor of Safety as specifiedin AS1666(1995) for wire rope, the greater value shall be applied. Equation 2 is consistent with theexplicit application of termination efficiency where AS1666(1976) is based on the poorestperforming termination. Although equation 2 would allow a minimum Factor of Safety for aconventional ferrule secured wire rope sling of 4.21 this guideline is adopting a minimum Factor ofSafety of 5.26 (or 5/Rt where Rt = 0.95 for ferrule secured wire rope) as recommended inAS1666(1995). It should be noted that for a similar sling the Factor of Safety as specified inAS1666(1976) would be 5 which includes consideration of the termination efficiency. For furtherdiscussion on the inconsistency of the application of termination efficiency between AS1666(1976)and AS1666(1995) refer to Reference 64. The Factor of Safety for chains and wire rope areprovided as a function of SWL in Figure 1 and Figure 2 respectively.
Table 5.4.4 lists recommended Factors of Safety for commonly used slings in offshore and onshoreoperations for direct loaded lifting arrangements. Values for other types of operations may bedetermined by substituting the appropriate values of Rm, Rt and Ro in Equation 2.
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Table 5.4.4 Recommended Factors of Safety for Commonly Used Slings
Type ofOperation Ro
Chain SlingRt= 1.0
Rm = 1.0
Wire RopeRt=0.95,Rm =1.00
Flat WebbingRt=.875Rm=.57
Round WebbingRt=1.0Rm=.57
Onshore orPlatform lift
1.00 45.26
(Theoreticalvalue = 4.21)
8 7
Offshore Boat Lift(Hs=3.0m Max)
Lift Weight <= 6
Lift Weight= 10
Lift Weight =25
0.69
0.81
0.92
5.8
5.0
4.4
6.1
5.26*
5.26*
11.6
9.9
8.7
10.2
8.7
7.7
Note: 1. Lift weight in tonnes2. Where the lift weight is not measured, the uncertainty of the lift weight shall be considered.3. Where the Factor of Safety for wire ropes, predicted herein, is less than the Factor of Safety as
specified in AS1666(1995) the greater value shall be applied. *
Figure 1. Effective FOS for Chain Sling for “Offshore Boat Lifts”
Effective FoS - Chain (Hs < 3.0m, Rt = 1, Rm = 1)
0
1
2
3
4
5
6
7
0 5 10 15 20 25
Safe Working Load (tonnes)
Fac
tor
of
Saf
ety
APPEA (OFFSHORE)
AS3775 - 1990 (ONSHORE)
6
4.4
5.8
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Figure 2. Effective FOS for Wire Rope Sling for “Offshore Boat Lifts”(Ferrule Secured Terminations)
5.5 Access to Crane Hook for Marine Crews – Fifth Leg Assemblies
Rigging assemblies should be of sufficient length to allow a rigger at ground or deck level toconnect the rigging assembly to the crane hook from the outside of the “Lifted Equipment”. Duringlifting, the recommended included angle between the sling and the horizontal at pad eye level is 60degrees.
Rigging assemblies with an included (apex) angle greater than 90 degrees must be approved by theoperator prior to use.
In some instances, consideration should be given to attaching a fifth leg to the top of the assemblyto ensure the top end of the rigging assembly can reach to within one metre of the deck.
Whilst the inclusion of a 5th leg will greatly assist supply vessel deck crews, it does delete theinherent redundancy in a 4 leg assembly. For this reason a 4 leg assembly is preferred.
Prior to the issue of these Guidelines the WADME stipulated a FOS of 6.5 for single legassemblies. Any requirement for the continued use of this FOS should be checked with WADME.
5.6 Diagonalling
For loads up to approximately 25 tonnes using 2, 3 and 4 point lifts, the total load should be takenby 2 slings as required by AS1666(1995).
Diagonalling effects should be considered for both “Lifted Equipment” (including pad eyes) and therigging. (Not applicable to engineered lifts)
Effective FoS - Wire Rope(Hs < 3.0m, Rt = 0.95, Rm =1)
0
1
2
3
4
5
6
7
0 5 10 15 20 25
Safe Working Load (tonnes)
Fac
tor
of
Saf
ety
APPEA (OFFSHORE)
AS1666 -1995 (ONSHORE)
6
5.3
6.1
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5.7 Specific Requirements for Offshore Use
5.7.1 Synthetic Slings (Refer AS 1353.17.2-1997, AS 4497.1&.2 -1997)
Synthetic slings shall not be used on Offshore Containers. Synthetic slings may be used where hardslings would cause damage to the lifted load or where safety may be enhanced by their use.
Factors of safety for both types of slings are given in Section 5.4. Synthetic slings are manufacturedfrom nylon, polyester, polypropylene and Aramid Polyamide and their labels are coloured green,blue, brown and yellow respectively.
Only polyester (blue label) slings are considered suitable for offshore service.
Synthetic slings are more susceptible to damage than other types of slings and special proceduresshould be developed for storage, inspection, identification, tagging and discard criteria.
Load testing requirements are covered in the above mentioned codes. It is generally accepted thatit is more economical to replace used slings than retest them, particularly in the smaller sizes.
5.7.2 Safety Shackles
It is preferred to use safety shackles rather than screw pin shackles. Where screw pin shackles areused, the pins must be suitably seized using seizing wire. Plastic cable ties shall not be used tosecure pins. Shackles can be supplied as Grade S or Grade T. Generally Grade S shackles arepreferred.
5.7.3 Eyebolts
Eye-bolts shall not be used for offshore boat lifts.
5.7.4 Chain Slings
Chain slings manufactured from grade T chain (Australian Standard AS2321) have beentraditionally the preferred chain slings for offshore use. As a result of documented failures duringoffshore lifts with grade T chain slings, manufactured using boron modified material, chain slingsshould comply with the following guidelines.
• All new purchases of chain slings for offshore use shall specify chain slings to ISO 3076 orISO 7593 until such time as Australian Standards are upgraded.
• Existing slings using AS2321 grade T chain made from boron modified material may stillbe used for lifts where there is redundancy in the rigging arrangement (4 leg assemblies).They shall not be used for single or two leg sling lifts where there is no redundancy.
Where chain slings are used for Offshore Lifting Operations a minimum chain size of 10mm shouldbe adopted.
5.7.5 Wire Rope Slings
Where wire rope slings are used for Offshore Lifting Operations a minimum diameter of 13mmshould be adopted.
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5.8 Design of Offshore Container Pad Eyes & Their Attachment
Pad eyes for “Lifted Equipment” up to a maximum weight of approximately 25 tonnes that areintended for repeated use should be designed on the following basis:
• The dynamic amplification factor (DAF) is to be taken from the graph in Appendix Dbased on the total lifted load.
• The “Design Load” shall be taken as the “Resulting Sling Force” (RSF) times the DAF.The resulting sling load will take into account of the sling angle (apex angle of 60 degreesis common) and the diagonalling effects described in Clause 5.6.
• The load factor described in Clause 2.2 of AS1170.1 SAA loading code shall be taken as1.0 on the basis that the maximum static load is known accurately.
• Pad eye local capacity checks should be conducted using AS4100 “Steel StructuresCode,” Clause 7.5.
• A lateral load of 5% times RSF shall be applied concurrently with the RSF. The lateralload shall be multiplied by the DAF. The lateral load shall be applied perpendicular to theplane of the pad eye at a minimum height of the shackle pin centre line.
• The combined actions of the biaxial bending and tension should be checked using AS4100“Steel Structures Code,” Clause 8.3.4.
The above approach assumes the use of Australian Standards. The use of equivalent internationallyrecognised standards is also acceptable.
The steel grade used for pad eyes shall be clearly specified on the design drawings. It is recognisedthat 350 grade is widely used but where pad eyes are being checked on an existing container thedesigner shall assume that grade 250 steel has been used unless justification for a higher gradeexists.
Hole sizes in pad eyes should be bored or drilled to provide a diameter equal to the shackle pindiameter plus 3mm or 4% greater than the shackle pin diameter, whichever gives the larger hole.The thickness of the pad eye should be at least 75% of the shackle width to avoid “twisting” theshackle. The maximum thickness of the pad eye shall be such that a total minimum gap of 5mm ismaintained to avoid “binding”. Bolted on pad eyes should not be used on offshore containers.
5.9 Design of Lifted Equipment (Offshore Containers)
“Lifted Equipment” consisting of structural steelwork such as: offshore containers, skids, skips,frames and bins which are intended for repeated use shall be designed in accordance with DNV2.7-1.
The container shall be checked for two conditions as follows:
• 4 point lift in accordance with Clause 3.2.1.1 of DNV 2.7-1.
• 2 point lift in accordance with Clause 3.7.1.3 of DNV 2.7-1.
The allowable stress for both conditions is given in clause 3.2 of DNV 2.7-1. Structural designer’sattention is also drawn to clause 3.2.3 of the DNV certification notes 2.7.1 regarding minimummaterial thickness.
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Where a material other than structural steel is used, a design engineer should determine theappropriate design standards and load factors.
5.10 ISO Containers used as Lifted Equipment
Sea (ISO) Containers can be described as containers built for international shipping and aredesigned to carry general purpose cargo internationally and interstate. They generally have “twistlock” type corner fittings for lifting with a purpose built frame. Sea (ISO) containers are notspecifically designed for use as offshore containers in operations associated with the offshorepetroleum industry.
It is recommended that the use of such containers as "lifted equipment" be phased out as soon aspossible. The use of ISO containers and their transportation offshore is not precluded provided theyare not lifted equipment. Such use is not covered by these guidelines.
A target date of December 31st 2000 has been set for the complete phase out of ISO containers aslifted equipment.. Contractors are advised to check with individual operators for their requirementswith respect to the phase out of ISO shipping containers. During the transition period, the followingguidelines should apply to their use as offshore containers:
• they should not be loaded above 40% of their ISO Maximum Gross Mass (MGM) rating(Refer to CSC plate on container) and,
• should be inspected & tested in accordance with Appendices F & H;
• all lifting should be conducted using pad eyes. Twist lock fittings shall not be used forlifting;
• there should be trace-ability of the material used for pad eyes fitted to the container and ofall welding carried out on the container;
• Open top ISO containers should not be used as offshore containers.
• Closed ISO containers of greater than 6 metres (20 ft) in length should not be used asoffshore containers.
• prior to any intended offshore use, thorough inspections should be carried out on thecontainer’s floor support members and door latching mechanisms. These are critical to thecontainer’s integrity;
• inspections should be conducted by competent persons. Refer to clause 2.4.2 forcompetency requirements; and
• fork-lift pockets shall only be used for onshore lifting.
Prior to the container phase out date, inspection and testing of ISO shipping containers used in theoffshore oil and gas industry should be performed according to the APPEA Guidelines for the PhaseOut of ISO Shipping Containers (Refer Appendix H).
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5.11 Design of Sub-sea Lifts
Sub-sea lifts are a specialised form of lift the design of which should only be undertaken byqualified engineers with experience in this area. Generally, the design of “Lifting Equipment”should follow the same approach as that for a similar lift in air. Sub-sea “Lifting Equipment” shouldbe designed in accordance with “DNV Marine Operations, Part 2 Chapter 6 - Sub-Sea Operations”or a recognised equivalent standard. The lift design should take into account factors specific to theoffshore environment in which the lift is being conducted. As a minimum, consideration should begiven to the following factors associated with sub-sea lifts, many of which are highly dependent onthe shape of the equipment being lifted:
• Viscous drag due to diversion of water around the “Lifted Equipment” (noting that velocityof equipment in water = winch velocity plus angular velocity due to vessel roll).
• Reduced mass of the “Lifted Equipment” in water due to buoyancy.
• Near surface and near seabed stability due to the vibration absorption/amplification of thesurrounding fluid.
• When the “Lifted Equipment” is at or just above the air/water interface, allowing for themass of the water to be temporarily supported when waves break over the equipment.
• Suction when lifting off the sea bed.
• When in water, force due to the apparent additional inertia from accelerated water= mass of water x g x (DAF - 1.0).
• Force due to equipment, marine growth and sediments= mass of items in water x g x DAF.
As the hook of the “Lifting Device” will rise and fall in the water due to vessel roll, rigging for“Lifted Equipment” needs to be of sufficient length to avoid the hook striking divers, ROVs andother sub-sea equipment in the vicinity of the lift. Pad eyes and rigging should be of a suitablecolour and of sufficient size to enable easy location and use by divers or ROVs.
Many of the above factors can be reduced by the use of specialised equipment and techniques.When a self-compensating winch or other line load control system is used, the effects of vessel rollon dynamics and velocity in water may be reduced. When an item is lifted off the seabed, suctioneffects can be reduced by sliding before raising. Excessive mass due to marine growth andentrapped sediments may be removed prior to lifting.
The above factors cannot be avoided by assuming motion of the “Lifted Equipment” is alwaysdownward, as any requirement to stop lowering prior to placement, either planned or in emergency,may result in their occurrence.
5.12 Materials of Construction and Fabrication Requirements
Fabrication of “Lifting Equipment” shall be in accordance with recognised international orAustralian standards.
All materials should be suitable and safe for their intended purpose; for the fabrication, transport,installation and use of “Lifting Equipment”; and to comply with the requirements for materials innominated Australian or international standards. Particular attention should be paid to the fracturetoughness of materials.
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Vendors and fabricators should have quality management systems equivalent to ISO9001, ISO9002or ISO9003. All materials used in the fabrication of “Lifting Equipment” shall have documentationin accordance with the contractor’s quality control procedures to demonstrate trace-ability. Asapplicable, some or all of this documentation may be required to support the equipment register.
5.13 Documentation – New Build Lifted Equipment
All “Lifted Equipment” should be issued with a Certificate of Conformity prior to their initial proofload testing. This must be issued as a separate document or as a dedicated section included on theLoad Test Certificate and must be signed by an endorsed signatory of the "body" (refer to section2.6 Designers & Verifiers of Lifted Equipment, Lifting Devices and Rigging for Engineered Lifts).
The Certificate of Conformity should contain the following information:
• Assurance that the lifted item (container) has been designed, fabricated to offshore “LiftingEquipment" standards (eg. DNV, Lloyds etc.). The owner of the equipment shall retain thecertificate.
• Tank containers that are required to comply with the International Maritime DangerousGoods (IMDG) regulations, should also be certified in accordance with the IMDG code.
The certificate of conformity shall be based on the following documentation, collated in an “asbuilt” dossier, which shall be retained by the lifted equipment owner:
• structural calculations;
• drawings;
• specifications for welding procedures;
• welder qualifications;
• material certificates;
• report on trace-ability of materials;
• report from fabrication inspection;
• report from non-destructive examination;
• report from prototype testing;
• report from proof testing; and
• report from final inspection.
The "Certificate of Conformity" shall contain the following information:
• item fabrication number;
• the Certificate number;
• description of the item including;
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§ external dimensions;
§ number of lifting points;
§ name of fabricator;
§ date of fabrication;
§ maximum gross weight in kilograms;
§ tare weight in kilograms;
§ net weight in kilograms;
§ reference to the “as built” dossier;
§ the total gross weight in kilograms applicable to the all points lifting test and the actualmethod of test;
§ specification of lifting set;
§ angle of legs (from horizontal);
§ shackle bolt diameter;
§ required safety factor (against breaking);
§ conformity to other requirements and codes;
§ a statement that the item has been designed, fabricated and tested in accordance withthis guideline;
§ remarks; and
§ signature on behalf of the certifying body.
Proprietary devices and “Lifted Equipment”, such as drum lifters, plate clamps, etc, should have atest certificate and be accompanied by a maintenance and operating manual (where required) andshould only be used for onshore, inshore and on platform lifts.
5.14 Documentation for Existing Lifted Equipment
It is recommended that a Certificate of Conformity be issued for existing “Lifted Equipment” at thenext due date for periodic load testing with final compliance date being 4 years after the initial issueof these guidelines. If all the requirements for issuing a Certificate of Conformity cannot be metthen the date of the next scheduled load test may be extended by a maximum of 3 months to permitload testing under these guidelines to be carried out. During this period the item of lifted equipmentmay continue to be used.
The minimum requirement to enable a Certificate of Conformity to be issued for existing “LiftedEquipment” are as follows:
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• Existing “Lifted Equipment” is inspected in accordance with Section 8 and Appendix Iand found to have passed the certified visual inspection and NDT where appropriate (eg.Pad eyes).
• Pad eye designs should be reviewed by an experienced Engineer (refer to clause 2.6 forcompetency requirements) to ensure compliance with clause 5.8. Where pad eyes do notmeet this standard they should be modified appropriately.
• The design of the item has been reviewed by an experienced Engineer (refer to clause2.6 for competency requirements). The review should confirm that the item of “LiftedEquipment” has sufficient structural integrity to pass load tests specified in Table F.2. ofAppendix F.
• Load testing of “Lifted Equipment” is conducted by an appropriate body in accordancewith Table F.2. of Appendix F.
• Load testing of rigging is conducted by an appropriate body in accordance with TableF.3. of Appendix F.
• Rigging shall meet the requirements of Appendix C, where existing rigging is retainedsome reduction in the maximum SWL may be required.
5.15 Initial Load Tests for Lifted Equipment
New lifted equipment as listed in section 1.3 shall be proof load tested to the requirements ofAppendix F.4. For competency requirements refer to section 2.5.1.The accrediting body may request a drop test of containers when verifying a design for the firsttime. Precautions should be taken when securing test loads, particularly for a 2 point lifting test.
The container shall be considered to have passed the initial load test provided there is no permanentdeformation of the container. Deformation can readily be measured using two taut wires strungbetween the diagonal corners of the container.
The test masses shall normally be evenly distributed inside the item. When the designer of newequipment or the design verifier* of existing equipment considers it impracticable to applysufficient test load inside an item (other than an offshore container) then the designer or designverifier shall recommend a method of load test for the item. If it is not possible to place all the testmass inside the item, some of it may be placed outside or under the item, provided that this gives aloading on the structure similar to the distribution of the item loading in operating conditions.
(*refer to 2.6 for competency requirements
Note: The alternate method of test loading described above does not apply to offshore freightcontainers. All offshore containers MUST have the full test load evenly distributed over the floorarea.
5.16 Non Destructive Testing (Offshore Containers Including ISO Containers)
NDT at fabrication shall include inspection of the lifting points (pad eyes) and the connectionsimmediately adjacent to the lifting points as a minimum.
Consideration should also be given to the NDT inspection of all primary members and theirconnections.
NDT inspection shall be conducted by an appropriate inspection body. Refer to Clause 2.5 forcompetency requirements.
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6 DESIGN OF TANKS FOR FLUIDS
In addition to complying with other relevant design codes and requirements, tank containers forfluids shall be suitable for offshore service.
Tanks which could be used to transport fluids shall be designed to conform to relevant sections of:
• AS 1692 Tanks for Flammable and Combustible Liquids
• AS/NZ 3711.6 Tank Containers
• IMDG Code
• DNV 2.7-1 Certification Notes - Offshore Containers
• EN 12079:1999 Offshore Containers – Design, Construction, Testing, Inspection andmarking’
These guidelines for offshore tanks for fluids coincide with the requirements of DNV 2.7-1, section3.5 and EN12079, section 5.5.
The following is an extract from EN12079:
“Tanks for dangerous cargoes shall fulfil the requirements of the IMDG Code and shall bedesigned according to recognised rules for pressure vessels. A tank and its support shall beable to withstand lifting and impact loads. In addition, due account shall be taken of fluidsurge arising from partly filled tanks.”
Note: Chapter 13 of the general introduction to the IMDG Code does not allow tanks with a lengthabove 3m to be handled by fork-lift in a loaded condition. Special protection of the tank and fittingsin the area near the fork pockets is required.
On tank containers for dangerous cargoes, all parts of the tank and fittings shall be suitablyprotected from impact damage by a frame, suitable for offshore service where applicable. Inaddition to the IMDG Code, the following shall apply:
• Beams, plates or grating, shall protect the top of the tank and its fittings. No part of thetank or its fittings shall extend above a level 100mm below the top of the framework. Itshall not be possible for any part of the lifting set to foul fittings, manhole cleats or otherprotrusions on the tank.
• Protective beams shall be placed at or near the location where the tank shell is nearest tothe outer plane of the sides. Beams shall be spaced sufficiently close together to give thenecessary protection.
• At the maximum calculated elastic deflection of any side member, the residual clearancebetween the member and any part of the tank shell or its fittings shall be at least 10mm.
• No part of the underside of the tank shell (including sumps), the bottom valves or otherfittings shall extend below a level 150mm above the bottom of the framework. Any suchpart extending below a level 300mm above the bottom of the framework shall beprotected by beams or plating.
• Tank containers designed with direct connection between the tank and the side or top frameelements shall be subject to special consideration by the operator or during operation toavoid damage.
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7 MARKING OF LIFTING EQUIPMENT
7.1 General
All “Lifting Equipment” shall be marked with an individual identification code (“Unique Number”)and the safe working load (SWL) as determined from the design. Where appropriate, for certain“Lifted Equipment”, the SWL may be replaced by the tare mass and maximum gross mass. Theidentification code shall enable the operator to link the manufacturer and test certification numbers.For contractor owned equipment, this code should include unique character(s) or colour to indicatethe owner.
Where equipment is used both for onshore and offshore lifts it shall be marked with the offshoreSWL rating.
7.2 Marking of Lifting Devices
7.2.1 Fixed Location Pad Eyes
Valid certified pad eyes which have undergone proof loading and non destructive testing should beidentifiable at point of location with the pad eye centrally positioned in a 30 cm x 30 cm paintedsquare (minimum size). The SWL and the identification number should be stencilled with the textand background in contrasting colours.
7.3 Marking of Lifted Equipment
“Lifted Equipment” including equipment containers, skips, baskets, frames and similar items areexpected to be marked with the information as shown on examples of marking plates provided inAppendix I or a similar alternative.
All characters marked on the container (eg. Tare, Nett and Gross) should be durable, ofproportionate width and thickness and in a colour contrasting with that of the container. Themarkings should be clearly legible and, if painted, stencilled.
Manufacturer’s plates should be of a suitable size for the required information as indicated inAppendix I and should be of durable material (eg; stainless steel or marine grade aluminium) andsecurely fixed in a visible but protected location.
Inspection & test plates should be of a suitable size as indicated in Appendix I. The plates should beupdated or replaced when either load testing, NDT or certified visual inspection is carried out.
Containers and tanks used for dangerous cargoes should be marked according to the requirements ofthe IMDG Code, in addition to the marking requirements of this Section.
7.4 Container and Roof Identification Markings
Each container should be marked with a container number issued by the owner as a uniqueidentification, which should be the common cross-reference on all in service certification, shippingdocumentation, etc.
The container number shall be prominently displayed on all sides of the container (as viewed fromground level) in characters of contrasting colour, not less than 75 mm high.
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If the container has a roof, the container number should be displayed on the roof, in characters notless than 300 mm high (or less if space is limited). The marking should be carried out in such a wayas to avoid incorrect interpretation (eg. by underlining). Where applicable, the lower edge markingshould be positioned near the side of the container in which the door is located.
7.5 Lifting Frame and Beam Markings
The minimum marking required for each lifting frame and lifting beam should include ID No,TARE and SWL. The marking should be done using 50 mm letters. Where required, the designapproval number allocated by the relevant Statutory Authority should be added. Where no suitablelocation exists, painted markings down to 25 mm on a securely fixed plate are acceptable. Stampedmarkings should not be less than 8 mm in height.
7.6 Marking of Rigging
The appropriate Australian Standards provide all marking details for rigging. Wire rope riggingassemblies shall be tagged in accordance with AS1666.1 Section 7. Chain rigging assemblies shallbe tagged in accordance with AS3775 Section 8.
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8 PERIODIC INSPECTION, TESTING AND MAINTENANCE
8.1 General
The periodic inspection, testing, and maintenance (including repairs) of all “Lifting Equipment”,including contractor owned, shall be conducted by competent personnel. Periodic inspection,testing and maintenance shall be conducted in a manner to ensure safety to people and plant. Whenrequested, contractors must supply the operator with copies of all relevant certificates before the“Lifting Equipment” is used at any location under the operator’s jurisdiction.
A specific inspection, maintenance and testing plan should be developed for each “Lifting Device”,each item of “Lifted Equipment” and rigging assembly or item. Where a Safety Case is in place thisplan should be risk based and developed in accordance with the appropriate safety case guidelines.The inspection, testing and maintenance plan should consider the following factors:
• manufacturer’s recommendations;
• statutory requirements;
• relevant historical data;
• frequency of use; and
• operational environmental conditions.
The plan should address:
• periodical inspection and maintenance routines (eg. weekly, annual);
• a feedback loop to allow modifications to routines based on performance;
• procedures for documenting results of inspections and tests;
• procedure for colour coding inspected and tested equipment; and
• inspector’s responsibility and qualification matrix.
Records of testing, inspection, maintenance, repair and modification should be included in the“Lifting Equipment” Register.
All “Lifting Equipment” shall be visually checked prior to each use by appropriately certified cranedriver, dogger or rigger (as applicable). This inspection should ensure that:
• equipment is appropriate for load to be applied;
• equipment is in good condition;
• equipment is correctly labelled
Non complying equipment shall be tagged and either removed from site or repaired.
Scheduled testing and inspections should include test loading, non-destructive testing (NDT) andvisual inspection (as appropriate). Recommended inspection and testing frequencies are provided inAppendix F.
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Variations to these recommended frequencies are acceptable where a reliability based approach is inplace under a facility’s safety case.
8.2 Lifting Devices
8.2.1 Inspection Before and After Proof Loading
For “Lifting Devices” and associated rigging, inspection should be performed in accordance withthe Australian Standards.
For equipment not covered by Australian Standards, the equipment owner in conjunction with theinspector should select the most appropriate of those inspection requirements provided in AS 1418for “other devices”.
For specially fabricated devices such as overhead pad eyes, the requirements for “LiftedEquipment” should be applied.
8.3 Lifted Equipment
The following requirements for inspection apply to “Lifted Equipment”. Note that theserequirements are based on DNV recommendations for periodic inspection of “Lifted Equipment”.These requirements are guidelines for inspection or repair organisations to develop their owndetailed work instructions or procedures. These requirements should be subject to the equipmentowner and/or users approval.
All “Lifted Equipment” should be periodically inspected by an appropriate body. Refer to Clause2.4.2 for competency requirements.
The inspection should meet the following requirements:
• prior to testing, key dimensions and straightness should be measured;
• structure should be visually examined for corrosion, mechanical damage and injuriousdeformation;
• all accessible load bearing welds should be visually examined to ensure freedom fromdefects;
• the lifting points should be visually examined for distortion, mechanical damage or anyother sign of distress or overload;
• doors, frames, seals, hinges, locks etc. should be visually examined and functionallychecked to ensure that they operate in a satisfactory manner without undue force beingrequired;
• the floor should be visually examined to check that it is substantially flat with no sign ofdistress or overload. Drainage facilities, where fitted should be examined, eg. drain holesshould be clear of debris etc.;
• the paint markings and plates should be checked to see that they meet therecommendations of this document;
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• inspect lifting set for: rating, condition, currency of test etc.;
• if due or required proof load test.;
• after completion of a proof test load, the equipment should be re-examined for signs ofpermanent deformation caused by the test. Any deformation or weld defect caused by theload test shall result in the withdrawal of the equipment from service until all such faultshave been corrected and a further satisfactory load test completed;
• NDT by the method nominated on the drawings if due, or required;
• welds to all pad eyes and members directly supporting pad eyes should be subject to100% magnetic particle inspection (MPI); and
• where it is determined that a fault is related to design or fabrication quality, a modificationor repair method shall be developed, and approved by the responsible person, beforecommencement of any rectification works.
Detailed guidelines for the inspection, testing and marking of offshore containers are provided inAppendix I APPEA Guidelines for the Inspection Testing and Marking of Offshore Containers.
Where proof loading is not a viable option, (ie. where access for loading is restricted such as fortransportable buildings with small doorways) structural assessment of the container may bedetermined by a certified visual inspection. The certified visual inspection of the container shall beconducted by an appropriate inspection body. Refer to Clause 2.4.2 for competency requirements.For inspection requirements refer to Appendix I.
8.4 Rigging
8.4.1 Proof Loading of Rigging used for Offshore Lifting (Boat Lifts)
The rigging for the “Lifted Equipment” shall be subject to a proof force that is not less than 40% ofthe rated minimum breaking load (MBL) of the member.
Proof Load = 40% x Rt x Rm x MBL,
Where Rt and Rm are defined in section 5.4
The sling shall withstand the application of the proof force, without sustaining damage that mayaffect its intended function or safety. The sling shall also be free from any deleterious permanent setor defects visible to the unaided eye.
AS1666 (wire rope) & AS3775 (chain) testing requirements for individual legs of a multi legassembly shall be complied with.
Proof load testing of rigging and NDT testing as appropriate shall be conducted by an appropriatebody. Refer to Clause 2.5 and 2.5.1 for competency requirements.
After proof loading has been completed, the sling or slings shall be marked with a safe workingload as determined in accordance with these Guidelines. The safe working load shall be marked onthe sling or slings in a manner which is in accordance with AS1666 or AS3775 as applicable.
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For all sling assemblies (both chain and wire rope), AS1666 1995 requires that the head ring betested separately from the rigging attached to it. Refer to AS1666 1995 for further details.
Test frequencies and other test requirements are included in Appendix F, Tables F2 and F3.
8.5 Repairs and Modifications to Lifting Equipment
Repairs and modifications to “Lifting Devices” should be carried out to conform with the originalmanufacturer’s specification and in accordance with Section 4. For “Lifted Equipment” where it isnot clear whether a member is structural or not, guidance should be sought from a qualified designengineer. Design changes that alter the original structural details or safe working load capabilities ofthe “Lifting Equipment” should be approved by a qualified design engineer. Refer to clause 2.6 forcompetency requirements.
“Lifting Equipment” shall be proof load tested following repairs involving modifications or heatapplication to structural members.
All repairs or modifications should be recorded in the “Lifting Equipment” Register (Section 3).
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9 SAFE OPERATING PROCEDURES
9.1 Lifting Operations between Platforms and Vessels
9.1.1 Planning
The Australian Offshore Support Vessel Code of Safe Working Practice provides guidance onlifting operations between platforms and vessels.
The safe conduct of lifting operations involving the transfer of cargo between a platform and avessel require planning and a high level of communications among the parties involved in theseoperations.
Prior to the start of any lifting operations, the communications between the person in charge of thefacility and the Master of the vessel, or their appointed deputies, should address the followingissues:
• the suitability of existing and forecast weather conditions for the required liftingoperations involving the vessel;
• communications arrangements between the facility and the vessel during the liftingoperation;
• any limitations or restrictions affecting, or which may interrupt, the proposed operations;
• the nature and weights of the cargo to be transferred and any special lifting requirements;
• whether any of the proposed lifts require special consideration, safeguards or controlsduring lifting, or special securing arrangements on the vessel;
• rigging arrangements to be used and any special rigging requirements; and
• procedures to be used in the event of an emergency occurring while lifting operations arebeing conducted.
9.1.2 Communications
Safe lifting operations rely on there being effective communications among the Master of thevessel, the person in charge of the facility, the crane operator, the deck officer in charge on thevessel and the deck crews on both the facility and the vessel. A reliable radio communication linkon a dedicated channel or frequency should be maintained throughout the operations. The craneoperator on the facility should have direct radio communication with the vessel.
The crane operator should have a clear view of the deck areas on both the facility and the vessel.Where this is impractical, a dogger should be so stationed as to have a clear view of the deck area toassist the crane operator. Directions given to the crane operator by the deck crew on the vessel mustonly be given by one person who has been clearly identified for that purpose.
9.1.3 Lift Preparation and Handling
Wherever practicable, all lifts should be pre-slung using rigging which conforms to theseguidelines. Rigging should allow the deck crew to connect / disconnect the lift at deck level.
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Open cargo baskets containing loose materials should be provided with safety nets or covers toprevent wind borne discharge of the contents during lifting operations or while in transit. Doors andlids on closed containers must be securely fastened.
No container should be loaded in excess of its rated capacity. Material should not be added tocontainers, skips, cargo baskets, etc already transferred to the deck of a vessel unless it is safe to doso, the capacity of the container will not be exceeded, and the change to the loading is recorded onthe manifest.
9.2 Personnel Transfers
Personnel baskets (eg. Billy Pugh) should only be used where the use of alternative means oftransferring personnel is impractical or unsafe. They should only be carried out under the authorityof the person in charge of the facility and with the agreement of the personnel being transferred andthe master of the vessel involved.
Each facility should have documented procedures for this type of operation. These proceduresshould address the issues identified in these guidelines.
9.2.1 Authority
The person having the authority to approve personnel basket transfers should be clearly identified.Approval should not be given unless this person is satisfied that the personnel involved agree to thetransfer operations and the transfer can be safely carried out.
9.2.2 Duties
The duties of personnel in supervising or carrying out the personnel basket transfer should beclearly defined. Generally, this would include the person in charge of the facility, the craneoperator, the Master of the vessel, and other people nominated by the person in charge and theMaster of the vessel to undertake specific duties.
The Person in charge of the facility should:
• be aware of the reason for the transfer;
• be satisfied with the fitness and training of the people to be transferred;
• be satisfied as to the suitability of the vessel;
• know the limitations of visibility and sea state;
• be aware of the limitations on transfer by night;
• be aware of the suitability of the crane for personnel transfer;
• check the wind speed limitations on crane operations;
• establish satisfactory communications with the Master of the vessel involved in the
transfer;
• ensure that participants understand the procedures involved;
• be satisfied with the competence and experience of the crane driver; and
• be satisfied with the inspection and testing of the personnel basket.
The Master of the vessel should confirm to the person in charge of the facility that:
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• the transfer has been accepted and the procedures have been understood;
• the vessel has a satisfactory station keeping capability;
• the deck crew have been fully briefed;
• the people to be transferred have been adequately briefed and are fit to be transferred.
The crane operator should ensure that:
• the crane is fully operational;
• the wind speed is satisfactory for safe operation;
• the requirements and procedures involved are clearly understood;
• the dogger and the transfer area are clearly visible;
• adequate communications have been established.
The dogger and deck supervisor should ensure that:
• the transfer procedure is understood;
• they are clearly identifiable as dogger and deck supervisor;
• the personnel basket is correctly used;
• the transferees are fit for transfer and understand the procedures;
• proper communications have been established;
• respectively they have a full view of the transfer areas.
• The personnel basket is connected to the crane by a closed hook
• A safety sling is provided between the rigging of the personnel basket and a point on the
crane hoist line above the hook.
Individuals who are to be transferred should:
• ensure that they understand the transfer procedure;
• confirm that they are agreeable to the transfer;
• be able to use correctly the safety equipment provided;
• observe all instructions from those in charge of the operation.
9.2.3 Suitability of the vessel
The type of vessel considered suitable to carry out a transfer should be determined by its ability tomaintain station alongside the facility and have sufficient clear deck space to safely receive thebasket.
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9.2.4 Weather conditions
Weather conditions are critical factors impacting on the safety of personnel basket transfers. Factorswhich should be taken into account include visibility, wind and sea state. Guidelines should beprovided which specify the maximum wind speed and sea state beyond which basket transfer is notpermissible, including the wind speed limitations for crane operations and the effect of weatherconditions on the stability of the vessel.
9.2.5 Communications
Both radio and visual communication should be established and maintained between thosepersonnel conducting the operation.
9.2.6 Safety equipment and rescue procedures
The procedures should specify the type of safety equipment to be worn by personnel beingtransferred and the rescue arrangements made. Personnel being transferred should wear life-jackets,suitable clothing and other specified safety equipment. Life-jackets should be equipped withsuitable means of illumination during night transfers. The standby vessel should be in closeattendance during transfer, with the rescue boat ready for immediate launching.
9.2.7 Training
Personnel will be transferred by basket in greater safety and with less apprehension if they, and thepersonnel conducting the transfer, have received training in the techniques involved. The type oftraining required can be included in installation drills. Inexperienced people or those not trained inthe use of personnel baskets should always be accompanied by someone who has been trained inpersonnel transfer procedures.
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APPENDIX A
REFERENCE DOCUMENTS
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LEGISLATION
1. Petroleum (Submerged Lands) Act 1967 [P(SL)A]
2. Petroleum (Submerged Lands) Act: Schedule of Special Requirements as to OffshorePetroleum Exploration and Production
3. Petroleum (Submerged Lands) Act: Petroleum (Submerged Lands) Act (Management ofSafety Of Offshore Facilities) Regulations 1996
4. Navigation Act 1912 and associated Regulations and Marine Orders
MO Part 43 “Dangerous Cargoes”MO Part 44 “Safe Containers”MO Part 59 "Offshore Support Vessel Operations"
5. Explosives and Dangerous Goods Act6. Occupational Health, Safety and Welfare Act7. WA: Occupational Safety and Health Act 1984 and Associated Regulations 19968. NT: Work Heath Act 19929. NT: Work Health - Occupational Health and Safety Regulations 1992
AUSTRALIAN AND NEW ZEALAND STANDARDS ETC.
10. AS ISO-1000 The International System of Units and its Application11. AS 1138 Thimbles for Wire Rope12 AS 1171 Non-Destructive Testing Magnetic Particle Testing of Ferromagnetic
Products, Components and Structures13. AS 1163 Structural Steel Hollow Sections14. AS 1353 Flat Synthetic Webbing Slings15. AS 1380 Fibre Rope Slings16. AS 1418 Cranes (Including Hoists and Winches)17. AS 1438 Wire - Coil Flat Slings18. AS 1504 Fibre Rope – Three Strand Hawser Laid19. AS/NZS 1554 Structural Steel Welding20. AS 1650 Hot-Dipped Galvanised Coatings on Ferrous Articles (superseded in part
by AS/NZS 4534 but remains current)21. AS 1657 Fixed Platforms, Walkways, Stairways, Ladders,22. AS 1664 Aluminium Structures23. AS 1666 Wire Rope Slings24. AS 2068 Flat Pallets for Materials Handling25. AS 2076 Wire Rope Grips for Non-Lifting Applications26. AS 2089 Sheave Blocks for Lifting Purposes27. AS 2207 Non-Destructive Testing for Ultrasonic Testing of Fusion Welded Joint in
Carbon and Low Alloy Steel28. AS/NZS 2312 Guide to the Protection of Iron and Steel against Exterior Atmospheric
Corrosion29. AS 2317 Collared Eye-bolts30. AS 2318 Swivels for Hoists31. AS 2319 Rigging Screws and Turnbuckles32. AS 2321 Short Link Chain for Lifting Purposes (Non Calibrated)33. AS 2550(1982) Cranes - Safe Use34. AS 2741 Shackles35. AS 2759 Steel Wire Rope - Application Guide36. AS 3569 Steel Wire Ropes37. AS/NZS 3678 Structural Steel - Hot Rolled Plates, Floor Plates and Slabs
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38. AS/NZS 3679.1 Structural Steel - Part 1: Hot Rolled Bars and Sections39. AS/NZS 3679.2 Structural Steel - Part 2: Welded I Sections40. AS 3775 Chain Slings - Grade T41. AS 3776 Lifting Components for Grade T Chain Sling42. AS 3777 Shank Hooks and Large Eye Hooks - Maximum 25 Tonne43. AS 3990 Mechanical Equipment – Steelwork44. AS 4048 Flat Pallets for Materials Handling (1100mm x 1100mm Suitable for use in
ISO Series 1 Freight Containers)45. AS 4100 Steel Structures46. AS 4142 Fibre Rope47. AS 4497 Round slings - Synthetic Fibre, Parts 1 & 248. AS B291 Lifting Rings & Links
INTERNATIONAL STANDARDS49. API RP 2A Recommended Practice for Planning, Designing and Constructing Fixed
Offshore Platforms50. API Spec 2c Specification for Offshore Cranes51. API RP 2D Recommended Practice for Operation and Maintenance of Offshore Cranes52. API Spec 9a Specification for Wire Rope53. API RP 9B Recommended Practice on Application, Care and Use of Wire Rope54. AWS D1.1 Structural Welding Code – Steel for Oil Field Service55. BS 2573 Rules for the Design of Cranes56. BS 2903 Higher Tensile Steel Hooks for Chains/Slings Blocks and General
Engineering Purposes57 DNV Marine Operations - Part 2: Operation Specific Requirements, Chapter 5:
Lifting.58. DNV Marine Operations - Part 2: Operation Specific Requirements, Chapter 6:
Sub-sea Ops.59. DNV Certification notes No 2.7-1. Offshore Containers60. DNV Certification notes No 2.7-2. Offshore Service Containers61. EN 818-2 Short link chain for lifting purposes - Safety - Medium tolerance chain for
chain slings - Grade 862. EN 818-4 Short link chain for lifting purposes - Safety - Chain slings - Grade 863. EN 12079 European Committee for Standardisation. - Offshore Containers-Design,
Construction, Testing, Inspection and Marking.64 IMO Maritime Safety Committee Circular 86065. Lloyds Code for Lifting Appliances in a Marine Environment.66. PREN1677-1 Components for Slings - Safety - Part 1: Forged Steel Components, Grade
867 PREN1677-4 Components for Slings - Safety - Part 4: Links, Grade 8
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OTHER DOCUMENTS
68. IICL Guide for Container Equipment Inspection69. IICL Repair Manual for Steel Freight Containers70. AMOG/ESSO Factors of Safety for Lifting Slings used in Offshore Supply Boat
Operations71. AMOG Investigation of Dynamic Amplification Effects During Offshore Lifting.72. AMSA Australian Offshore Vessel Code of Safe Working Practice.
Note: Institute of International Container Lessors Ltd. (IICL) references 68 and69 have been prepared for International Shipping Containers and notOffshore Containers. They do however provide a good general guidancefor containers.
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APPENDIX B
DEFINITIONS
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Alter: To change the design of, add to or take away from the equipment where thechange may affect health and safety, but does not include routinemaintenance, repairs or replacements.
AMSA: Australian Maritime Safety Authority.
Approved: Approved by the Operating Company, regulator, authority or society.
AS: Australian Standard.
Asset Owner: Entity that owns “Lifting Equipment”.
Certificate ofConformity:
A certificate issued by a body as described in Section 2.6 and in accordancewith Section 5.13. The issuance of this certificate indicates to owners,users and transporters of the container that the unit is “fit for intendedservice”.
The certificate is only to be issued when the accredited facility has ensuredthat the container meets all the requirements detailed in APPEA Containermanagement documents.
Where there is an existing doubt, the equipment owner should ensure thatthe container design is verified against the requirements of the APPEAGuidelines by a qualified structural engineer.
Certified visualinspection:
Inspection of “Lifting Equipment” accompanied by a report bearing theendorsement stamp of the appropriate inspection body or classificationsociety.
The inspection must be signed by an authorised signatory. It typicallyincludes visual, material dimensional, and material thickness checks,opening up and dismantling as considered necessary by the Inspector maybe required.
COG: Centre of Gravity.
CompetentPerson:
A person having practical and theoretical knowledge and relevantexperience, such as will enable that person to detect and evaluate anydefects and weaknesses that may affect the intended performance of theequipment.
Container: “Lifted Equipment” used in lifting and transport operations (see Section1.3).
CSC Convention for Safe Containers
DAF: Dynamic Amplification Factor.
DesignatedInspector/Surveyor/Verifying body:
A representative of a Classification Society or an inspection body or averifying body registered with the statutory body to perform certain surveysor inspections and issue certificates of inspection on behalf of the StatutoryAuthority.
DME: Department of Minerals and Energy.
Engineer: A person qualified to be a Member of the Institute of Engineers, Australia(MIE Aust.) or recognised equivalent who is competent and has adequateexperience to assure that the technical requirements of this standard aremet.
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Engineered Lift: A lift which due to constraints, circumstances or specialised engineeringinput is beyond the scope of these guidelines. An engineered lift willtypically require modification to acceptance criteria and will thereforerequire a higher level of management and possible approval from therelevant authorities prior to being carried out.
EquipmentContainer:
Enclosure or frame designed specifically for lifting a particular item ofequipment or containing permanent fixtures such as a workshop. Thecontainer with contents remains at a constant mass and centre of gravityand would normally have dedicated rigging attached via pad eyes. Itincludes drilling support equipment, welding units, air compressor unitsand workshops.
Gross Mass: The maximum permissible combined weight of a cargo container and itscontents, ie. Maximum Gross Mass = Tare Weight + Net Weight measuredin kilograms (This is also known as Gross Weight measured in kilograms).
IMO: International Maritime Organisation.
Inshore Lift: Lifting to or from a vessel at a sheltered wharf. This may be performedusing either a vessel based or a shore based crane.
Inspection“body”:
An organisation accredited by the National Association of TestingAuthorities - Australia (NATA) to perform certain types of inspections andissue endorsed reports. These reports meet the requirements of the P(SL)Aschedule for test reports.
Inspector: Any person carrying out inspection of “Lifting Equipment”. Examples ofInspectors are representatives of NATA accredited establishments, riggers,crane drivers, welders, NDT technicians, QC inspectors, QC managers andqualified engineers. The qualifications of the Inspectors are dependent onthe type of inspection being performed. In all cases, the Inspector shallhave experience and training suitable to the inspection being performed.Where inspections referred to in this document require specificqualifications, these have been given in the appropriate section.
LiftedEquipment:
Equipment that the rigging connects to (Refer to Section 1.3).In the case of machinery, valves, etc with attached pad eyes, this termrefers to the machinery or valve.
Lifting Device: An item equipped with mechanical means for moving or placing a freelysuspended load.
LiftingEquipment:
Means an item or an integrated assembly of items designed to convey or foruse in conveying people, equipment or materials and includes “LiftingGear” and “Lifting Devices”. It also may be referred to as materialshandling equipment.
Lifting Gear: An item of equipment for use with a “Lifting Device” for lifting people,equipment or materials. The item is designed to be detachable from thecrane and includes both rigging and “Lifted Equipment”.
Lifting Points: Points on a structure to which rigging is attached, such as pad eyes.
Lift Weight: The total mass of the load including crane wire rope over head sheave,hook, hook block, and all rigging.
Maintenance: The activity of monitoring, inspecting, testing, refurbishing and replacingof plant and equipment within its pre-existing design specifications.
May: Indicates a discretionary action.
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MBL: Minimum breaking load.
MGM Maximum Gross Mass
MO: Marine Orders.
MODU: Mobile Offshore Drilling Unit.
MPI: Magnetic particle inspection.
NATA: National Association of Testing Authorities, Australia.
NDT: Non-Destructive testing, including magnetic particle, ultrasonics.
Net Weight: The maximum permissible weight of the contents of a container inkilograms.
New Container: Container constructed after the issue date of this document.
NTDME: The Northern Territory Department of Minerals and Energy.
OffshoreContainer:
An item of Lifted Equipment designed for the movement of equipment ormaterials to, from and at offshore installations.
Offshore Lift: A lift performed in unsheltered waters between two vessels, between aplatform and a vessel, or between a platform and the seabed.
Onshore Lift: Lifting about an onshore location not involving a vessel.
Proof Load: The test load required by the Code or Standard for the specific equipment.
ResponsiblePerson:
A person who is responsible to any one of:• the designer of the equipment• the manufacturer of the equipment• a competent testing establishment• the owner of the equipment• a classification society• the operating company
for carrying out design, testing, inspection, certification or determination ofsafe working loads of “Lifting Equipment”.
Rigging: Equipment which is designed for repetitive use, to be readily detachablefrom a “Lifting Device” and which constitutes all or part of a liftingassembly that connects a load to the “Lifting Device”.
Safe WorkingLoad (SWL):
The maximum gross load which may be imposed for a specific use in orderto allow an adequate margin of safety. The SWL may equal but neverexceed the working load limit (WLL),
eg. In AS 1418 part 1 for Class 3 load applications, the SWL = WLL, for Class 4 and 5 applications, the SWL = 0.8 WLL.
Safe working load of a crane is the maximum mass which is permitted tobe safely handled by the crane. Safe working load of a lifting attachmentis the maximum mass that is permitted to be safely handled by the liftingattachment.
Shall: Indicates a mandatory requirement.
Should: Indicates a recommended requirement.
Sling Angle: The angle the leg of a sling makes with the horizontal. Typically within therange of 60 to 90 degrees.
StatutoryAuthority:
An Authority having statutory powers to control the design, manufacture,use and testing of “Lifting Equipment” in the State or Territory within theCommonwealth of Australia in which the equipment is used.
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Tare Weight: The weight of an empty container or the weight of a lifting beam or liftingframe, complete with dedicated components, in kilograms.
Testing: Testing, in the context of inspection, means such tests carried outperiodically by a responsible person, in conjunction with inspection, atperiods defined by this document.
Testing “body”: An organisation accredited by the National Association of TestingAuthorities (Australia) to perform certain types of tests and issue endorsedreports. These reports meet the requirements of the P(SL)A schedule fortest reports.
Tugger Winch Construction aid not intended for lifting
Type TestCertificate
A certificate, similar to a Certificate of Conformity, but issued to indicatethat a generic design of offshore container meets the requirements of theAPPEA Guidelines. Testing requirements are in accordance with DNV2.7-2 and may include drop testing. If a Type Test Certificate is issued for ageneric design then subsequent testing of individual offshore containersfabricated to that design may be less extensive than would otherwise berequired.
VisualInspection:
A detailed visual examination and other such measures considerednecessary by an Inspector to determine the condition of the “LiftingEquipment”. Inspection may include visual, dimensional.
WADME: The Western Australian Department of Minerals and Energy.
Winch A lifting device capable of freely suspending a load by means of a wirerope wound on a drum.
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APPENDIX C
OFFSHORE WIRE ROPE AND CHAIN SLINGS
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TABLE C1
SAFE WORKING LOADS FOR “OFFSHORE BOAT LIFT” USE OFSINGLE-PART SINGLE LEG SLINGS WITH 1570 GRADE WIRE AND FIBRE-ROPE CORE
WITH FERRULE-SECURED EYES
1 2 3 4 5 6 7 8 9 10 11 12Choke Hitch Basket Hitch
DirectLoaded Round
LoadRectangular
Load Round Load Other than Round Load
Method of Loading
Included Angle (αα) - - - 0 60 90 120 0 60 90 120
10.95
1
0.750.95
1
0.50.95
1
20.95
1
1.730.95
1
1.410.95
1
10.95
1
10.95
1
0.870.95
1
0.710.95
1
0.50.95
1
Loading FactorsRc
Rt
Rm
Ro See Note BelowRope
NominalDiameter
mm
MinimumBreaking
ForcekN
SAFE WORKING LOAD, tRefer AS1666 for “Onshore/Platform Lifts”
131416
182022
242628
32
74.386.2113
143176213
253297345
450
1.241.41.8
2.32.93.5
4.24.95.7
8.1
0.931.071.4
1.72.22.6
3.13.74.3
5.6
0.620.710.94
1.191.41.7
2.12.42.8
3.7Note: The Operational Loading Factor, Ro, is determined as a function of lifting weight (SWL), Ref. Section 5.4
Shaded Lift Configurations are not recommended for “Offshore Boat Lifts”
Page 48
TABLE C2
SAFE WORKING LOADS FOR “OFFSHORE BOAT LIFT” USE OFTWO LEG, THREE LEG AND FOUR LEG SLINGS
WITH 1570 GRADE WIRE AND FIBRE-ROPE CORE WITH FERRULE-SECURED EYES
1 2 3 4 5 6 7 8Choke Hitch
Method of Loading Direct LoadedRound Load Other than Round Load
SingleWrap
DoubleWrap
SingleWrap
DoubleWrap
Included Angle (αα) 0 to 60 90 120 0 to 45 0 to 60 0 to 45 90 to 60
1.730.95
1
1.410.95
1
10.95
1
1.30.95
1
0.870.95
1
Loading FactorsRc
Rt
Rm
Ro See Note BelowRope
NominalDiameter
mm
MinimumBreaking
ForcekN
SAFE WORKING LOAD, tRefer AS1666 for “Onshore/Platform Lifts”
131416
182022
242628
32
74.386.2113
143176213
253297345
450
2.12.43.2
4.15.06.2
7.89.911.5
15.0
1.752.02.6
3.34.15.0
5.97.39.2
12.2
1.241.431.88
2.32.93.5
4.24.95.7
8.1
1.61.82.4
3.13.84.6
5.46.58.1
11.3Note: The operational Loading Factor, Ro, is determined as a function of lifting weight (SWL), Ref. Section 5.4
Shaded Lift Configurations are not recommended for “Offshore Boat Lifts”
Page 49
TABLE C3
SAFE WORKING LOADS FOR “OFFSHORE BOAT LIFT” USE OF SINGLE-PART SINGLE LEG SLINGSWITH 1770 GRADE WIRE AND WIRE-ROPE CORE WITH FERRULE-SECURED EYES
1 2 3 4 5 6 7 8 9 10 11 12Choke Hitch Basket Hitch
DirectLoaded Round
LoadRectangular
Load Round Load Other than Round Load
Method of Loading
Included Angle (αα) - - - 0 60 90 120 0 60 90 120
10.95
1
0.750.95
1
0.50.95
1
20.95
1
1.730.95
1
1.410.95
1
10.95
1
10.95
1
0.870.95
1
0.710.95
1
0.50.95
1
Loading FactorsRc
Rt
Rm
Ro See Note BelowRope
NominalDiameter
mm
MinimumBreaking
ForcekN
SAFE WORKING LOAD, tRefer AS1666 for “Onshore/Platform Lifts”
131416
182022
242628
323640
444852
5660
107124161
204252305
363426494
646817
1010
122014501710
19802270
1.782.02.6
3.44.25.0
6.07.59.4
12.515.819.5
23.628.0
-
--
1.341.552.0
2.53.13.8
4.55.36.2
9.111.814.6
17.721.024.8
28.7-
0.891.031.34
1.702.102.5
3.03.54.1
5.37.19.7
11.814.016.5
19.121.9
Note: The operational Loading Factor, Ro, is determined as a function of lifting weight (SWL), Ref. Section 5.4Shaded Lift Configurations are not recommended for “Offshore Boat Lifts”
Page 50
TABLE C4
SAFE WORKING LOADS FOR “OFFSHORE BOAT LIFT” USE OFTWO LEG, THREE LEG AND FOUR LEG SLINGS
WITH 1770 GRADE WIRE AND WIRE-ROPE CORE WITH FERRULE-SECURED EYES
1 2 3 4 5 6 7 8Choke Hitch
Direct LoadedRound Load Other than Round Load
Method of Loading
SingleWrap
DoubleWrap
SingleWrap
DoubleWrap
Included Angle (αα) 0 to 60 90 120 0 to 45 0 to 60 0 to 45 90 to 60
1.730.95
1
1.410.95
1
10.95
1
1.30.95
1
0.870.95
1
Loading FactorsRc
Rt
Rm
Ro See Note BelowRope
NominalDiameter
mm
MinimumBreaking
ForcekN
SAFE WORKING LOAD, tRefer AS1666 for “Onshore/Platform Lifts”
131416
182022
242628
323640
44
107124161
204252305
363426494
646817
1010
1220
3.13.64.7
5.97.810.2
12.114.216.5
21.627.4
-
-
2.522.93.8
4.85.97.7
9.911.613.4
17.622.327.6
-
1.782.072.68
3.44.25.1
6.17.59.5
12.515.819.5
23.6
2.32.73.5
4.45.56.8
8.810.712.4
16.220.525.4
-Note: The operational Loading Factor, Ro, is determined as a function of lifting weight (SWL), Ref. Section 5.4
Shaded Lift Configurations are not recommended for “Offshore Boat Lifts”
Page 51
TABLE C5
SAFE WORKING LOADS FOR “OFFSHORE BOAT LIFT” USE OFSINGLE-PART SINGLE LEG SLINGS WITH 1770 GRADE WIRE AND FIBRE-ROPE CORE
WITH FERRULE-SECURED EYES
1 2 3 4 5 6 7 8 9 10 11 12Choke Hitch Basket Hitch
DirectLoaded Round
LoadRectangular
Load Round Load Other than Round Load
Method of Loading
Included Angle (αα) - - - 0 60 90 120 0 60 90 120
10.95
1
0.750.95
1
0.50.95
1
20.95
1
1.730.95
1
1.410.95
1
10.95
1
10.95
1
0.870.95
1
0.710.95
1
0.50.95
1
Loading FactorsRc
Rt
Rm
Ro See Note BelowRope
NominalDiameter
mm
MinimumBreaking
ForcekN
SAFE WORKING LOAD, tRefer AS1666 for “Onshore/Platform Lifts”
131416
182022
242628
323640
444852
5660
98.4114148
187231280
333391454
594751929
112213341573
18212088
1.641.92.4
3.13.84.6
5.56.78.2
11.514.517.9
21.725.8
-
--
1.231.421.8
2.32.83.5
4.14.85.6
8.010.913.4
16.219.322.8
26.4-
0.820.951.23
1.561.902.3
2.73.23.7
4.96.38.5
10.812.915.2
17.620.2
Note: The operational Loading Factor, Ro, is determined as a function of lifting weight (SWL), Ref. Section 5.4Shaded Lift Configurations are not recommended for “Offshore Boat Lifts”
Page 52
TABLE C6
SAFE WORKING LOADS FOR “OFFSHORE BOAT LIFT” USE OFTWO LEG, THREE LEG AND FOUR LEG SLINGS
WITH 1770 GRADE WIRE AND FIBRE-ROPE CORE WITH FERRULE-SECURED EYES
1 2 3 4 5 6 7 8Choke Hitch
Method of Loading Direct LoadedRound Load Other than Round Load
SingleWrap
DoubleWrap
SingleWrap
DoubleWrap
Included Angle (αα) 0 to 60 90 120 0 to 45 0 to 60 0 to 45 0 to 60
1.730.95
1
1.410.95
1
10.95
1
1.30.95
1
0.870.95
1
Loading FactorsRc
Rt
Rm
Ro See Note BelowRope
NominalDiameter
mm
MinimumBreaking
ForcekN
SAFE WORKING LOAD, tRefer AS1666 for “Onshore/Platform Lifts”
131416
182022
242628
323640
44
98.4114148
187231280
333391454
594751929
1122
2.83.34.3
5.46.99.2
11.113.115.2
19.925.2
-
-
2.312.73.5
4.45.46.8
8.710.612.3
16.220.525.4
-
1.641.902.47
3.13.94.7
5.66.78.3
11.514.517.9
21.7
2.12.53.2
4.15.06.1
7.79.811.4
14.918.923.4
28.3Note: The operational Loading Factor, Ro, is determined as a function of lifting weight (SWL), Ref. Section 5.4
Shaded Lift Configurations are not recommended for “Offshore Boat Lifts”
Page 53
TABLE C7
SAFE WORKING LOADS FOR “OFFSHORE BOAT LIFT” USE OFSLINGS WITH GRADE T CHAIN
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17Single Leg Slings Slings of 2, 3 or 4 legs Endless Slings
StraightSling
AdjustableSling
ReevedSling Straight Sling Reeved Sling Basket/Reeved Sling
Method of Loading
Included Angle (αα) - - - 60 90 120 60 90 120 60 90 120 -
111
0.7511
0.7511
1.7311
1.4111
111
1.3011
1.0611
0.7511
1.3011
1.0611
0.7511
1.511
Loading FactorsRc
Rt
Rm
Ro See Note BelowChain
Size fromAS2321
(Ref Note)1 2 3
MinimumBreaking
ForcekN
SAFE WORKING LOAD, tRefer AS3775 for “Onshore/Platform Lifts”
10
12
16
20
25
11
1314
18
2224
2728
30
½
5/8
¾
7/8
1
126158197
203213248
317322408
457503621
631724786
811917986
1131
2.212.773.46
3.573.74.3
5.55.67.6
9.010.413.1
13.315.617.2
17.820.722.6
28.8
3.84.85.9
6.26.68.2
11.411.615.2
17.319.427.3
---
---
-
3.13.94.8
5.05.26.1
8.78.912.0
13.715.219.5
19.923.628.2
---
-
2.212.73.4
3.53.74.3
5.55.67.6
9.010.413.1
13.315.617.2
17.820.722.6
28.8Note: The operational Loading Factor, Ro, is determined as a function of lifting weight (SWL), Refer Section 5.4
Shaded Lift Configurations are not recommended for “Offshore Boat Lifts”1. Preferred Chain Specification (mm), 2. Non-Preferred Chain Specification (mm),3. Temporary Specification (in).
Page 54
APPENDIX D
DYNAMIC AMPLIFICATION FACTOR
Page 55
FIGURE D.1
RECOMMENDED DYNAMIC AMPLIFICATION FACTOR (DAF)
(Hs=3.0 Metres Max.)
0
0.4
0.8
1.2
1.6
2
2.4
2.8
3.2
0 5 10 15 20 25
Lifted Mass (tonnes)
Dyn
amic
Am
plif
icat
ion
Fac
tor
(DA
F)
6
2.7
Page 56
APPENDIX E
PAD EYE DETAILS
Page 57
RIGGING DESIGN EXAMPLE
Problem:
Obtain sling, shackle and padeye sizes for lifting a 25 tonnes container offshore inaccordance with the APPEA “Guidelines for Lifting Equipment”
Assumptions:
- A 4 sling arrangement is assumed
- A maximum included angle of 60 degrees
- A 100/0 split of sling loads is assumed
- The centre of gravity is at the centroid of the padeyes
Sling size:
Referring to Table C4 in Appendix C of the APPEA “Guidelines for Lifting Equipment”,1770 grade wire rope with a 36mm nominal diameter has a safe working load of 27.4tonnes.
Shackle size:
Rc = 1.73 (refer to Table 1 AS1666.2 (1995))
Rm = 0.80 for shackles (refer to Table 5.4.1)
Rt = 1.00 for shackles (refer to Table 5.4.2)
Ro = 0.92 (interpolated from Table 5.4.3)
Factor of Safety = 4 = 5.43 Rm Rt Ro
SWL = P x Rc = 25.0 t (SWL of sling assembly) FoS x 9.81
P = SWL x FoS x 9.81 = 770.5 kN (Minimum breaking force) Rc
Referring to AS2741-1992 Table 5, the grade S alloy dee shackle with a diameter of 38mmhas a min. destructive test force of 834 kN. This shackle has a WLL of 17 tonnes.
Padeye sizeReferring to the Standard Drawing for Padeyes and Shackles (W2090-SKS01 Rev B), thecorresponding padeye to the shackle designed above is the padeye with a WLL of 17tonnes.
Page 58
3.2
4.7
6.5
8.5
9.5
12
13
17
25
35
45
55150
130
120
75
85
105
70
65
60
55
55
45
360
340
295
220
230
280
200
185
160
150
135
115
130
115
105
65
70
85
60
55
50
45
40
35
73
66
60
41
44
54
38
35
32
28
25
22
32
25
20
50
50
50
25
32
40
25
25
25
20
16
12
20
16
10
10
10
12
10
8
6
6
6
6
220
190
170
110
120
150
100
90
80
70
60
50
10
8
8
6
6
8
6
6
6
6
6
6
70
63
57
38
41
51
35
32
29
25
22
19
105
95
83
57
60
73
52
46
43
37
32
27
302
253
225
152
166
203
136
124
109
96
83
70
238
212
199
132
145
171
117
106
95
83
71
60
76
72
64
42
46
55
38
34
30
27
24
20
XA
(tonne)
B C T T Et F D W LB LDd
63
57
51
35
38
44
32
29
25
22
19
16
SHACKLESIZE PIN DIA.WELDTHICK. DIA.CHK.PLS.CHK.PLS.D+3mmRADIUSWLL
SHACKLEWITHPIN HOLE WITHOUT CHEEK PLATES NOM BOW DEE
SHACKLES ALLOY GRADE "S" - TO AS2741PADEYES - FOR ALL VALUES OF
55
17
35
45
25
13
12
9.5
WLL(tonne)
3.2
8.5
6.5
4.7
SLIN
G A
NG
LE
PADEYE TYPE 'X' PADEYE TYPE 'Y'DEE SHACKLE WITH PIN
ALLOY SHACKLES GRADE "S"-TO AS2741
BOW SHACKLE WITH PIN
SHACKLE
CP
FTYP
45°
T
45°
RO
OT
GA
PØ
E
t
T
B
A
C R
AD
(D+3)Ø
C R
AD
A
BC
(D+3)Ø
Ød
LB
X
W
ØD
B
Ød
LD
X
W
ØD
Page 59
3.2
4.7
6.5
8.5
9.5
12
13
17
25
35
45
55150
130
120
75
85
105
70
65
60
55
55
45
360
340
295
220
230
280
200
185
160
150
135
115
130
115
105
65
70
85
60
55
50
45
40
35
73
66
60
41
44
54
38
35
32
28
25
22
32
25
20
50
50
50
25
32
40
25
25
25
-
-
-
20
16
12
10
10
12
10
8
6
-
-
-
220
190
170
110
120
150
100
90
85
-
-
-
10
8
8
6
6
8
6
6
6
-
-
-
70
63
57
38
41
51
35
32
29
25
22
19
105
95
83
57
60
73
52
46
43
37
32
27
302
254
226
152
167
204
137
124
110
97
83
71
238
213
200
132
145
172
118
106
96
84
71
61
76
72
64
42
46
55
38
34
30
27
24
20
XA
(tonne)
B C T T Et F D W LB LDd
63
57
51
35
38
44
32
29
25
22
19
16
SIZE PIN DIAWELDTHICK. DIA.D+3mmSWLWITH CHEEK PLATES BOW DEE
SHACKLES ALLOY GRADE "S" - TO AS2741PADEYES - FOR ALL VALUES OF ß
55
17
35
45
25
13
12
9.5
SWL(tonne)
3.2
8.5
6.5
4.7
SLIN
G A
NG
LE
PADEYE TYPE 'X' PADEYE TYPE 'Y'
SLIN
G A
NG
LE
G
85
78
72
53
56
66
50
47
44
-
-
-
G G
ALTERNATIVE ALTERNATIVE
BOW SHACKLE WITH PIN
DEE SHACKLE WITH PIN
ALLOY SHACKLES GRADE "S"-TO AS2741
TYP
CP
TYPF
Page 60
APPENDIX F
INSPECTION & TESTING REQUIREMENTS
APPEA Guidelines for Lifting Equipment
Page 61
TABLE F.1
INSPECTION AND TESTING REQUIREMENTS FOR LIFTING DEVICES
PROOF LOAD TEST
ITEM
REFERENCE
CERTIFIED VISUAL
INSPECTION
NDT FREQUENCY LOAD
Cranes (The various types of cranes andlifting appliances are listed in
AS 1418)
Offshore:
• API Spec 2C
• BS 2573
• Lloyds Code for LiftingAppliances in a MarineEnvironment
• Manufacturer’s Specs
1 Year
Subject to:
• Visual inspection
• Failure ModeAnalysis
• IndividualCompany Program
• Initial Certification Test
• Following Repairs
Subject to:
• Visual inspection
• NDT
• Individual Company Program
Individual State Regulations specifyevery 12 months for some devices.
Varies from
SWL x 1.0 to
SWL x 2.2 dependingon type of “LiftingDevice”, as perAS1418.
Overhead Pad eyes AS1418.1 & .2
1 Year *
Subject to visualinspection or maximumof 3 years
Initial test and then subject to visualinspection, NDT and individualcompany program.
1.25 x SWL
Fork-lift tines AS 2359 1 Year
Subject to visualinspection
Initial test and then subject to visualinspection, NDT and individualcompany program.
Subject to individualcompany program
Mono rails P(SL)A AS1418.1 & .2 1 Year * Initial NDT, thensubject to visualinspection
Subject to individual companyprogram
1.25 x SWL
Note: * Certified Visual Inspection includes permanent marking of SWL
APPEA Guidelines for Lifting Equipment
Page 62
TABLE F.2
INSPECTION AND TESTING REQUIREMENTS FOR LIFTED EQUIPMENT Notes: 1. This table applies to “Lifted Equipment” up to 25* tonnes Gross Weight that has a Certificate of Conformity.2. “Lifted Equipment” MAY be tested using their own dedicated rigging gear (lifting set). Caution should be exercised because proof testing a sling to more than 1.5 times its
SWL may permanently distort wire rope thimbles if standard shackles are used, especially on the two point lift test.3. “Lifted Equipment” above 25 tonnes Maximum Gross Mass (MGM) may be proof load tested as specified by the design engineer.
PROOF LOAD TEST
ITEM
REFERENCE
CERTIFIED VISUAL
INSPECTION
NDT FREQUENCY LOAD TEST
REQUIREMENTS
“Lifted Equipment” Includes all types of offshore containers,baskets, skids, skips, spreader beams,spreader frames, workshops, labcontainers and workboxes.
APPEA 1 year
• Subject to visual inspection
• Initial Certification Test
• Every 3 years thereafter
• Following repairs tostructural members
• Initial Certification Test forNew & Existing Equipment
• Every 6 years thereafter orat the discretion of theinspection body
• Following repairs tostructural members
• Subject to visual inspection
MGM x 2.5
over 4 lifting points and
MGM x 1.5
over 2 lifting points
Transportable buildings. Includes; Offices, Laboratories etc. Not
intended to transport cargo
APPEA Before liftingunless inspectedwithin the lastyear.
Before lifting unless testedwithin the last three years
• Initial Certification Test
(At fabrication, primary structureonly before walls etc areinstalled)
MGM x 2.5
over 4 lifting points and
MGM x 1.5
over 2 lifting points
Specialised Lifting EquipmentSpecialised items such as drilling guidebases, conductor casing joints,equipment modules etc
APPEA Before liftingunless inspectedwithin the lastyear.
Before lifting unless testedwithin the last three years
Not generally requireddepending upon individualoperator's requirements
Tanks for Fluids (Includes tanks/containers of all sizes forboth normal and dangerous cargoes)
Note: There are additional requirementsfor IBC's in IMDG code.
APPEA 1 year
• Initial Certification Test
• Every 3 years thereafter
• Following repairs tostructural members
• Subject to visual inspection
• Initial Certification Test
• Every 6 years thereafter orat the discretion of theinspection body
• Following repairs tostructural members
• Subject to Visual Inspection
MGM x 2.5
over 4 lifting points and
MGM x 1.5
over 2 lifting points
APPEA Guidelines for Lifting Equipment
Page 63
Personnel Baskets (Work Box)
AS1418.17
1 year
• Subject to visual inspection
• Initial Certification Test
• Every 3 years thereafter
• Initial Certification Test
• Every 2 years
• Subject to visual inspection
Per Clause 4.2
AS1418.17
Personnel Transfer Basket (Billy Pughetc)
APPEA 1 year • Yearly Refer to ManufacturersRequirements
* Arbitrarily selected limit
APPEA Guidelines for Lifting Equipment
Page 64
TABLE F.3
PERIODIC INSPECTION AND TESTING REQUIREMENTS FOR RIGGING
Notes: 1. Offshore containers shall have specifically designed lifting sets, which shall not be removed from the container except for replacement of the lifting set or for examination
of the container.2. For Safety Factors for Rigging Equipment used in Offshore Lifting Operations refer to section 5.4.3. Minimum chain diameter to be 10mm. For containers with Maximum Gross Mass more than 3500kg, the minimum chain diameter must be 13mm.4. Min. Wire Rope diameter to be 13mm. For containers with Maximum Gross Mass more than 3500kg, the minimum wire rope diameter must be 19mm.
PROOF LOAD TEST
ITEM
REFERENCE
CERTIFIED VISUAL
INSPECTION
NDT FREQUENCY TEST REQUIREMENTS
Loose Rigging (Includes all types wire andsynthetic ropes, chains, links,shackles, swivels, rings, sockets,hammerlocks, etc)
APPEA • Not Required
• 3 monthly visualinspections
• Colour coding
• Visual inspectioneach time before use.
Subject to visualinspection
• Initial Certification Test
• Subject to Visual Inspection.
• Subject to company program.
Carried out to the requirementsof the relevant AustralianStandard. Refer to Section 8.4.1for SWL.
Lifting Sling(s) Single or multiple leg wire ropeand chain sets, complete with allassociated accessories)
APPEA 1 year
as part of the containerinspection.
Not applicable • Initial Certification Test
• Offshore – Every 6 years aspart of the “Lifted Equipment”Proof Load Test.
Refer to Section 8.4.1
Crane Hooks APPEA 1 year
• Every 2 years
• Subject to VisualInspection
• Initial Certification Test Refer to Manufacture
All Rigging for Man-lifts APPEA As specified above As specified above As specified above 4 × MGM (man-lift rating)specified in above documents
APPEA Guidelines for Lifting Equipment
Page 65
TABLE F4
TYPE & PRODUCTION TESTING OF NEW LIFTED EQUIPMENT
ITEM
REFERENCE
TYPE TEST Applies to first item manufactured of
new design
PRODUCTION TESTING (For the No. of units to be tested
refer the table F5 below)
LOAD TEST REQUIREMENTS
Offshore Containers
APPEA • 4 Point Load Test
• 2 Point Load Test
• Drop Test*
• 4 Point Load Test MGM x 2.5
over 4 lifting points and
MGM x 1.5
over 2 lifting points
Spreader Frames & Beams APPEA • Load Test only • Load Test only MGM x 2.5
Transportable buildings. Includes; Offices, Laboratoriesetc. Not intended to transportcargo
APPEA • 4 Point Load Test• 2 Point Load Test
• 4 Point Load Test MGM x 2.5
over 4 lifting points and
MGM x 1.5
over 2 lifting points
Specialised Items. Includes: drilling guide bases,conductor casing joints,equipment modules etc
APPEA • 4 Point Load Test• 2 Point Load Test
• 4 Point Load Test MGM x 2.5
* - For very large containers a drop test may be undesirable, hence the drop test should be carried out at the discretion of the accrediting body
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TABLE F5
Total number in series 1-5 6-10 11-20 21-40 > 40
Number to be tested 1 2 3 4 10%
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APPENDIX G
GUIDE TO AUSTRALIAN AND INTERNATIONAL STANDARDS
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Table G1- Guide to Australian and International Standards
Note: This table is intended as a guide only. In many cases, requirements of International standards will be less onerous than Australian standards. Requirements less onerousthan Australian standards are not recommended to be adopted without specific Operator approval.
Aust/NZ No Australian/New Zealand Title ANSI Standard British Standard DNV Std ISO Std
AS ISO-1000 The International System of Units - BS 5555 - ISO 1000AS 1138 Thimbles for Wire Rope - BS 464
BS 3226Rules for Marine OperationsPart 2 Chap 5
-
AS 1171 Non-Destructive Testing MagneticParticle Testing of FerromgneticProducts, Components and Structures
- BS 6072 - -
AS 1353 Flat Synthetic Webbing Slings - BS 3481BS 5053
- -
AS 1380 Fibre Rope Slings - BS 2052BS 4921BS 7648
- -
AS 1418 Cranes (Including Hoists & Winches) ASME B30API RP2DSpec 2C
BS 327BS 357BS 466
BS 1757BS 2452BS 2573BS 2799
BS MA41BS MA79
Rules for Certification ofLifting Appliances
-
AS 1438 Wire - Coil Flat Slings - - - -
AS 1504 Fibre Rope - Three Strand HawserLaid
- - - -
AS/NZS 1554 Structural Steel Welding AWS D1.1 BS 4870 - -
AS 1657 Fixed Platforms, Walkways,Stairways and Ladders – Design,Construction and Installation
A1264.1 BS 4592BS 5395
- -
AS 1664 Aluminium Structures Code AWS D1.2 BS 8118 - -
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Aust/NZ No Australian/New Zealand Title ANSI Standard British Standard DNV Std ISO Std
BS CP118
AS 1666 Wire Rope Slings ASME B30.9 BS 1290 Rules for Marine OperationsPart 2 Chap 5
-
AS 2089 Sheave Blocks of Maximum Lift 60Tonne
- BS 4018BS 4344BS 4536
BS MA47
Rules for Marine OperationsPart 2 Chap 5
-
AS 2207 Non-Destructive Testing forUltrasonic Testing of Fusion WeldedJoints in Carbon & Low Alloy Steel
AWS C3.8 BS EN 1714 - -
AS 2317 Collared Eye-bolts ASME B18.15 BS 4278 - -
AS 2318 Swivels for Hoists - - Rules for Marine OperationsPart 2 Chap 5
-
AS 2319 Rigging Screws and Turnbuckles - BS 4429 - -
AS 2321 Short Link Chain for LiftingPurposes (Non Calibrated)
ASME B29 BS 3113BS 3458
BSEN 818-1BS 6304
Rules for Marine OperationsPart 2 Chap 5
-
AS 2550 (1982) Cranes – Safe Use ASME B30 - Rules for Certification ofLifting Appliances
-
AS 2741 Shackles - BS 3551BS 6994
Rules for Marine OperationsPart 2 Chap 5
-
AS 2759 Steel Wire Rope – Application Guide API RP9B BS 6210BS 6570
- -
AS 3569 Steel Wire Ropes Spec 9A BS 183BS 302BS 525
Rules for Marine OperationsPart 2 Chap 5
ISO 3578
AS/NZS 3678 Structural Steel – Hot Rolled Plates,Floor Plates and Slabs
SAE J763SAE J1392
BS 7613 - -
AS/NZS 3679.1 Structural Steel – Part 1 : Hot RolledBars and Sections
SAE J1442 BSEN 10210-2 - -
AS/NZS 3679.2 Structural Steel – Part 2 : Welded ISections
- - - -
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Aust/NZ No Australian/New Zealand Title ANSI Standard British Standard DNV Std ISO Std
AS 3775 Chain Slings – Grade T ASME B29 BS 2902BS 6968
Rules for Marine OperationsPart 2 Chap 5
-
AS 3776 Lifting Components for Grade TChain Slings
- - Rules for Marine OperationsPart 2 Chap 5
-
AS 3777 Shank Hooks and Large Eye Hooks -Maximum 25 Tonne
ASME B30.10 BS 2903 Rules for Marine OperationsPart 2 Chap 5
-
AS 3990 Mechanical Equipment - Steelwork AISC BS 5950BS 7608
DDENV 1993DDENV 1994
- -
AS 4048 Flat Pallets for Materials Handling(1100mm x 1100mm suitable for usein ISO Series 1 Freight Containers)
ASME MH BS 3810BS 6637BS M69
- -ISO 445
AS 4100 Steel Structures AISC BS 5950BS 7608
DDENV 1993DDENV 1994
- -
AS 4142.1 - 1993 Fibre Rope - Care & Safe Usage - BSEN 698BSEN 701
BSEN 1251BS 7648
Rules for Marine OperationsPart 2 Chap 5
-
AS 4142.2 - 1993 Fibre Rope - 3 Strand Hawser laidand 8 Strand Plaited Rope
AS B291 Lifting Rings & Links - - Rules for Marine OperationsPart 2 Chap 5
-
AS/NZS 3711.1 Freight Containers:- Part 1Classification, Dimensions & Ratings
ANSI MH BS 3951 - ISO 668 Amd.1
AS/NZS 3711.2 Freight Containers:- Part 2 –Terminology
ANSI MH BS 3951 - ISO 830 Amd.1,Amd.2
AS/NZS 3711.3 Freight Containers:- Part 3 - CornerFittings
ANSI MH BS 3951 - ISO 1164 Cor.1
AS/NZS 3711.4 General Purpose Containers ANSI MH BS 3951 - ISO 1496.1 Amd.1
AS/NZS 3711.5 Thermal Containers ANSI MH BS 3951 - ISO 1496.2
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Aust/NZ No Australian/New Zealand Title ANSI Standard British Standard DNV Std ISO Std
AS/NZS 3711.6 Tank Containers ANSI MH BS 3951 - ISO 1496.3
AS/NZS 3711.7 Dry Bulk Containers ANSI MH BS 3951 - ISO 1496.4
AS/NZS 3711.8 Platform Containers ANSI MH BS 3951 - ISO 1496.5 Amd.1
AS/NZS 3711.9 Coding, Identification and Marking ANSI MH BS 3951 - ISO 6346 Amd.1
AS/NZS 3711.10 Handling and Securing ANSI MH BS 3951 - ISO 3874 Amd.2
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APPENDIX H
GUIDELINES FOR THE PHASE OUT OF ISO SHIPPINGCONTAINERS OFFSHORE
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SCOPEProvision of procedures & guidelines to manage the use of ISO containersused in the offshore oil and gas exploration and production industry.
The document provides guidelines for the inspection, testing and marking ofISO containers used in the transport of goods to and from offshore locations.
IDENTIFICATION OF“ISO” CONTAINERS
ISO containers are the containers originally built for international shipping andfitted with ISO Corner fittings and lifted in container ports, from these fittings,with a purpose built spreader frame and special “Twist-locks”. The containersare designed and rated for use in still water ports and not for offshore usewhere significant dynamic forces occur during lifting operations.
Most ISO containers are 20ft in length although 10, 30 & 40ft lengths are alsoavailable.
Note: Purpose built offshore containers may also have ISO Corner fittings.This is acceptable, provided that they are used only for securing duringtransport and/or onshore/inshore lifting in accordance with onshore/inshorecontainer lifting guidelines as detailed in AS 3711.10:1993 “FreightContainers – Handling and Securing”.
CONTROLLED USE OFISO CONTAINERS
Containers used in international shipping are controlled by the InternationalConvention for Safe Containers (CSC). When the containers used ininternational and/or coastal shipping reach the end of their service life, eitherthrough condition or a “time life” expiry they are often sold off withoutcurrent CSC compliance.
Existing CSC compliance plates do not apply to the offshore oil and gasexploration and production industry except as a reference for de-rating thecontainer in accordance with this these guidelines.
The CSC compliance plate is to be retained for this purpose. ISO containerswithout compliance plates should be condemned.
REFERENCES• King Bay Supply Base Lifting Equipment Management System,
Woodside Energy Ltd.• Marine Orders, Part 44, Section 11.• International Maritime Organisation Circular 613 (to be replaced by
Maritime Safety Committee, Circular 860).• International Convention for Safe Containers (CSC) IMO, 1982.• DNV 2.7-1 Offshore Containers –Certification Notes.AS3711.10 – 1993 - Freight Containers, Handling & Securing.
Figure 1: ISO Corner Fitting
Figure 2: Typical ISO Container
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ALLOWABLE ISOCONTAINER STYLES& LENGTHS
Closed roof, ISO containers up to 20 ft. in length are acceptable for offshoretransportation in accordance with these guidelines.
Open top style, ISO containers and any ISO container over 20 ft in length arenot acceptable for offshore transportation.
MODIFICATIONS TOISO CONTAINERS
Any ISO container that has been modified from the original CSC design musthave engineering calculations to support the continued integrity of thecontainer.
Unlike a purpose built offshore container, which is designed to carry full loadon primary structure members, ISO containers rely on the integrity of wallpanels for primary strength.
Such modifications may include:• Addition of extra doorway• Alteration to length• Addition of Pad eyes
PHASING OUT ISOCONTAINERS FROMOFFSHOREINDUSTRY
Contractors currently utilising ISO containers are expected to reduce thenumber in use up to the phase out date of 31 December 2000 and replace themwith purpose built offshore shipping containers.
The APPEA Guidelines for Lifting Equipment provide guidance for the designof purpose built offshore shipping containers.
COMMENTARY ONLIFTING POINTS
• Even in a still water port situation, ISO shipping containers cannot belifted from the ISO Corner fittings by shackles and slings. This applieseven when empty.
• Lifting with spreader frames as used in port situations is not allowed inoffshore lifting operations. Refer to IMO MSC circular 860
ISO containers used in the offshore industry should have pad eyes that arepurpose built. Refer to “Pad eyes” below.
Figure 3: Shackles in ISO corner fittings are not permitted Figure 4: Although not generally required when container isdown-rated, lifting with special lifting beams will be allowedduring phase out. Must be fitted to pad eyes as shown.
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PAD EYEREQUIREMENTS
The following guidance is provided for the installation of pad eyes:• design by qualified structural engineer;• design verification by independent engineer, who has not been involved in
the design;• carry MGM on 2 diagonally opposite pad eyes;• align to the centre of gravity of the load• shackle pin hole to be +3mm or, not greater than 4% more than the
shackle pin diameter;• width of pad eye to be equal to 75% of the opening of shackle to be fitted.
This may be accomplished by fitting bosses to pad eye;• material trace-ability;• documented welding procedures (To AS1554, AWSD1.1 etc.);• welder qualification trace-ability; and• NDT inspection of all welding associated with pad eyes.
Notes:1. The installation of pad eyes must have engineering trace-ability.2. Refer to section 5.8 for pad eye design.
ALLOWABLE MGM(Maximum Gross Mass)
ISO Containers used in the offshore industry where significant dynamic forcesoccur during lifting from supply vessels must be significantly de-rated.
Subject to inspections in accordance with these guidelines, ISO container useup to the phase out date will be allowed provided that the following is applied:
• The container is de-rated by multiplying original CSC Maximum GrossWeight (or Mass) x 2 and dividing the figure by 5.eg. For a 24 tonne MGM container:
(24 x 2) =9.6 tonnes MGM5
MARKINGREQUIREMENTS
All ISO containers, original or modified, shall have a stencilled markingbeside the CSC data plates indicating “Not Applicable”. The plate shouldremain to indicate the original MGM that is used in the de-rating formulaabove.
Marking plates are required for:• Operational Marking Plate (Tare, Nett & Gross)• Test Plate (date of test and inspections)
Each container should be marked with a unique identification number issuedby the owner. The number should be:1. cross-referenced on all relevant documentation; and2. prominently displayed on a minimum of 2 sides of the container in
contrasting colours with stencilled characters of not less than 75 mm inheight.
Note: Refer to Figures 5 &6 for details of plates.
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FORKLIFT POCKETS ISO Containers often have more than 1 set of fork-lift pockets. Extremecaution should be used when lifting a laden ISO container from the fork-liftpockets.
If there are two sets of fork-lift pockets, with one set being close to the centreof the container, the inner set are designed for “Empty lifting only”. Thesewords must be stencilled on the base frame adjacent to fork-lift pockets whensuch fork-lift pockets are installed. Stencilling should be 75mm in height.
There are instances where ISO containers have been modified and appear tohave useable fork-lift pockets on more than two sides, this can be a dangeroussituation as fork-lift pockets have been found that have the fork tines bearingon a plywood floor. Check before using and at scheduled inspection.
SLINGS Sling sets may be chain or wire rope. The following is recommended:• four leg sling assemblies are preferred;• maximum included (apex) sling angle of 60 degrees and;• chain used in stingers (or 5th leg) must meet ISO 3076, or ISO 7593
standards.
Note: The use of stingers is discouraged as the redundancy in a 4 leg assemblyis lost.
SHACKLES Shackles must be:• Grade “S” minimum; and• Safety pin type with split pin fitted.
CONTAINERINSPECTIONS
ISO containers must receive a thorough visual inspection both annually andprior to any load testing.• NDT Inspection of pad eyes and floor support structure is to be carried out
annually and prior to load testing.• All thorough visual inspections and NDT must be recorded in a lifting
equipment database.
THOROUGH VISUAL& NDT INSPECTIONS(ANNUALREQUIREMENT)
• door latching mechanisms in good working order (where applicable);• container is free from obvious defects, corrosion, impact damage, cracks,
etc;• under-floor support structure inspection. The floor support structure is
very light in an ISO container and is prone to extensive corrosion andcracking when used in the offshore environment;
• place container on supports to allow full inspection of underside andensure adequate lighting;
• look for corrosion and/or any cracking;• it may be necessary to sand blast corroded steel to allow full inspection;• suspected areas of cracking to have NDT inspections carried out;• steelwork that has suffered significant (greater than 10%) metal loss
through corrosion is to be replaced;• complete structure to be examined for corrosion, cracking, and impact
damage. Particular attention is to be given to inspection of lifting pointsand corner post assemblies;
• visually inspect all welds for defects;• NDT all welds in pad eye area. (NATA accredited NDT facility required);• inspect for signs of mechanical damage;
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• doors, frames, seals, hinges, locks should be examined and functionallychecked to ensure satisfactory operation without undue force;
• check floor is substantially flat with no signs of damage or otherindications that may indicate overloading. Any internal floor damage mayindicate underside damage- re-check; and
• marking plates should be as per requirements of these guidelines.
VISUAL INSPECTORSKNOWLEDGEREQUIREMENTS
The visual inspector should have, as a minimum, a knowledge and adequatepractical experience of:• the statutory requirements relating to containers;• the various types of containers in service;• the correct methods of slinging and handling the containers;• the loads affecting containers when handled under adverse offshore
conditions, particularly those affecting lifting points and, in the case ofISO containers used offshore, the floor support structure;
• the methods of testing containers as detailed in Maritime Safety.Committee circular 860 or, DNV2.7-1 Offshore Container, CertificationNotes. The provisions of DNV 2.7-1 to be used as a guide only as ISOcontainers do not comply with offshore container standards;
• defects likely to be found in containers and acceptable levels of wear,distortion and deterioration in relation to safety in use;
• welding methods and procedures and qualification of welders;• the various methods of non-destructive testing (NDT) and a good
understanding of how they work and their limitations; and• procedures for measuring container to ensure distortion has not occurred
during service or load testing.
TESTING AN ISOCONTAINER
The target date for the phase out of ISO containers for use in the offshore oiland gas exploration and production industry is 31 December 2000. Hence it isrecommended that any containers currently in use undergo the following loadtest (subject to satisfying inspection requirements) which would see themthrough to phase out date.• Testing of container as per “Testing Requirements” as detailed in IMO
613 & MSC 860. (Drop test will not be required)
TESTINGPROCEDURES
Prior to load testing carry out thorough visual inspection as detailed within thisdocument as there is no value in testing a container that has defects.
4 Point Lifting Test:Internal Load (not to be hung under container): a uniformly distributed load,such that the combined tare of the container and test load is equal to 2.5 timesthe de-rated MGM. The container should be lifted with its lifting set attachedto all four pad eyes.
2 Point Lifting Test:Internal load (not to be hung under container): a uniformly distributed loadsuch that the combined tare of the container and test load is equal to 1.5 timesthe de-rated MGM. It may be necessary to secure the weights to preventslippage during testing. The container should be lifted with slings attached totwo diagonally opposite pad eyes during the test.
Drop Test:Drop testing of ISO containers is not recommended. Drop testing is requiredwhen type testing future new container designs.
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ALLOWABLEDEFLECTIONDURING &SUBSEQUENT TOLOAD TESTING
Allowable deflection limits are detailed within DNV 2.7-1 Certification notes– Offshore Containers.Refer to sections 3.7.1.2 & 3.7.1.3 of referenced DNV document.
COMMENTS ONDEFLECTIONLIMITS
Where deflection exceeds the maximum allowable limit, the container shouldbe scrapped.
Figure 5: ISO Container Identification Plate
OFFSHORE CONTAINER Name of Manufacturer (if known) Month/year of Manufacture (if known) Manufacturers Serial No. (if known) Maximum Gross Weight kg at deg sling angle Tare Weight kg Payload Container kg
IDENTIFICATIONPLATE MATERIAL &SIZEREQUIREMENTS
• Plates to be of stainless steel or marine grade aluminium, 1 .5 mm thick• Affixed with stainless steel rivets (not aluminium)• 215 mm overall width• 150 mm overall height• Main heading alpha characters to be stamped 10mm in height• Other alpha & numeric characters 5mm in height
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Figure 6: Offshore Container Inspection Data Plate
INSPECTION DATA-OFFSHORE CONTAINER
Container No.Maximum Gross Mass kgTare Mass kgPayload - Container kg Mid- deck (Not Applicable to ISO containers)
Owner:Tel. No. +
Test Proof Load NDT Visual Inspection
INTERVAL ONCE ONLY 1 YEAR 1 YEARDATE &
“TESTED BY”
Note: The inspection frequencies shown above only apply to ISO containers
INSPECTION DATAPLATE MATERIAL &SIZEREQUIREMENTS
• Plate to be of stainless steel or marine grade aluminium, 1 .5 mm thick• Affixed with stainless steel rivets (not aluminium)• 215 mm overall width• 250 mm overall height• Main heading alpha characters to be stamped 10mm in height• Other alpha & numeric characters 5mm in height
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OK NO• Container was placed on supports and a full underside
inspection carried out.• Container has no significant corrosion and/or structural fault
affecting integrity• Container floor is in sound condition• NDT of pad eye welds and floor support structure has not
revealed any cracking (or repairs have been effected)• Pad eyes are fitted to the container• Pad eyes have engineering design drawings available• Pad eye design complies with the requirements of this
document.• Container has been de-rated as per requirements of this
document• Container has been load tested as per requirements of this
document• There is no permanent distortion of the container following
load testing• Fork-lift pocket marking is as per the requirements of this
document and the pockets are in a good and safe condition.• Where a 5th leg is used in a chain sling assembly, the chain in
the 5th leg must meet ISO3076 standards for lifting chain.
CHECK LIST
REVIEW PRIOR TOISSUING A TESTCERTIFICATE
• Engineering drawings and structural analysis support anymodifications. All such modifications should haveindependent design verification.
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APPENDIX I
GUIDELINES FOR THE INSPECTION, TESTING AND MARKING OFOFFSHORE CONTAINERS
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PREAMBLE
The purpose of these guidelines is to address integrity requirements for existing offshore containers. They donot address the requirements for new container fabrication or the concerns with ISO containers.
These guidelines provide lifting equipment testing facilities guidance on consistent minimum qualityrequirements for testing offshore containers.
APPEA encourages all offshore container owners and their agents to utilise inspection services that have beenaccredited by NATA (or equivalent overseas organisations) to carry out inspections and/or tests in accordancewith this guideline.
If the required documentation needed to obtain a “Certificate of Conformity” as detailed within this guideline isnot available to support the integrity of the container to be inspected and/or tested, the container should not beapproved for offshore use. This may require that engineering drawings be developed and calculations carriedout to verify the design of the container as being fit for intended service. Without all required information, a“Certificate of Conformity” should not be given for the container.
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DOCUMENT SCOPE Provide guidelines for the inspection, testing and marking of a wide range ofcontainers, baskets, skips etc. used in the offshore oil & gas exploration andproduction industry.
INTRODUCTION The range of shapes, sizes and capacity of containers used in the offshoreindustry makes it difficult to specify all requirements that need to be met foreach individual design. This document provides specifics on some mattersaffecting safety of containers whilst other areas may offer guidance only.
It is the joint responsibility of both the equipment owner and the inspectionand/or testing facility to ensure that all containers used within the offshoreindustry are fit for the intended service.
REFERENCES • International Maritime Organisation MSC Circular 860• DNV 2.7-1 Certification notes for Offshore Containers• APPEA Guidelines for Lifting Equipment IMDG Code• EN12079. Offshore Containers – Design, construction, testing, inspection
and marking.• Petroleum (Submerged Lands) Act 1967 P(SL)A
COMMENTS ONDESIGN OFOFFSHORECONTAINERS
It is recognised that there are many containers in use within the Australianoffshore oil & gas industry that may not be correctly engineered for theservice. The guidelines and procedures provided in this document will assistin ensuring that every container used within the oil and gas exploration andproduction industry has engineering drawings and design calculations tosupport the Maximum Gross Weight indicated on the container.
Without the required documentation the testing facility will have no readymethod of determining if the Maximum Gross Weight (MGM) nominated bythe owner, is in fact a safe working load to be applied.
New containers will be fabricated to stringent guidelines and will be built torecognised standards such as DNV 2.7-1. This will automatically provide thequality that this document seeks to introduce to existing containers.
JUSTIFICATION OFALLOWABLE MGM(Maximum Gross Mass)OF EXISTINGCONTAINERS
Existing containers may need to be down-rated due to the more stringenttesting requirements. It is recommended that container owners carry out areview of existing design MGM ratings to ensure that the container(s) willmeet the testing requirements of 2.5 times MGM. It may be necessary torevise the container MGM and to update drawings as required, indicating newratings.
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PAD EYEREQUIREMENTS
One of the most critical areas in the fabrication of an offshore container is thepad eyes and their attachment to the container. For this reason the followingare recommended for offshore containers.• the installation of pad eyes must be carried out in accordance with good
engineering practices;• no “bolted on” pad eyes are permitted;• pad eyes must be welded to the primary structure of the container;
Note: For existing containers of monocoque construction, a detailedengineering assessment of the pad eye connection is required;
• design carried out by a qualified structural engineer and checked by anindependent engineer;
• for design purposes, the design load is to be carried on two diagonallyopposite pad eyes;
• align to centre of gravity of the loaded container;• shackle pin hole to be +3mm or, not greater than 4% more than the
shackle pin diameter;• width of pad eye to be equal to 75% of the opening of shackle to be fitted.
This may be accomplished by fitting bosses (cheek plates) to pad eye;• material traceability where appropriate material with through thickness
properties is to be specified. (Lamellar Defects);• documented welding procedures (To AS1554, AWSD1.1 etc.);• welder qualification trace-ability; and• NDT inspection of welding by MPI for all fillet welds & a combination of
Ultra Sonic and MPI for full penetration welds.Notes:1. The installation of pad eyes must have engineering trace-ability.2. DNV 2.7-1 provides full details of container design and material
requirements and designers are encouraged to use the DNV document as aguide.
GENERAL DESIGNREQUIREMENTS
• Monocoque construction is not to be used in new offshore containerfabrication and/or designs ie. A “Primary structure” is required.
• For all other design requirements for new offshore containers, refer toDNV2.7-1 “Certification Notes – Offshore Containers”.
.
MARKINGREQUIREMENTS
All Offshore containers shall have the following:• Operational Marking Plate (Tare, Nett & Gross);• Test Plate (date of tests and inspections); and• Each container should be marked with a unique identification number
issued by the owner.Notes:1. The above referenced “unique number” should be cross-referenced on all
relevant documentation, including the “Certificate of Conformity”.2. The number should be prominently displayed on at least 2 sides of the
container in contrasting colours with stencilled characters of not less than75 mm in height.
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COMMENTS ONLOAD TESTING OFOFFSHORECONTAINERS
The load test requirements for offshore containers used in Australian watershave traditionally been taken from Marine Orders Part 32 as published by theAustralian Maritime Safety Authority. However, it is recognised that the tablepublished in Marine Orders Part 32 is not suited to offshore containers andthese guidelines recommend that the requirements of the InternationalMaritime Organisation (IMO) be applied.
IMO have issued a circular (613) that details testing requirements for offshorecontainers. This circular, referenced in Marine Orders part 44, paragraph 11 isto be replaced by circular MSC 860.
LOAD TESTING Prior to load testing, carry out thorough visual inspection as detailed withinthis document. There is no value in testing a container that has defects.
NDTCarry out NDT inspection on pad eye welds prior to and following loadtesting. There will be no point load testing if pad eye welds have existingfaults.
4 Point Lifting Test:Internal Load (not to be hung under container): a uniformly distributed load,such that the combined tare of the container and test load is equal to 2.5 timesthe rated MGM. The container should be lifted with its lifting set attached toall four pad eyes.
2 Point Lifting Test:Internal load (not to be hung under container): a uniformly distributed loadsuch that the combined tare of the container and test load is equal to 1.5 timesthe rated MGM. The container should be lifted with slings attached to twodiagonally opposite pad eyes during the test.
DOCUMENTATIONREQUIREMENTSPRIOR TOLOAD-TESTING
The following requirements apply to any offshore container including baskets,bottle racks, waste skips, completion baskets, workshops, stores and any otherstructure used to transport goods to and from offshore facilities.
The equipment owner (or user) is required to provide the testing facility withadvice regarding design drawings and design calculations as detailed onPage92.This information is required to enable the testing authority to issue aCertificate of Conformity that will confirm that the subject container meets therequirements of these Guidelines.
COMMENTARY ONCLASSIFICATIONSOCIETY APPROVEDOFFSHORECONTAINERS
When a container with classification society certification is presented to aNATA accredited facility for load testing, the facility is not required to verifythe design. The NATA accredited facility can proceed with load testing thecontainer and issue the Load Test Certificate on the strength of the ClassSociety Certification approval and the satisfactory load test.
Advice regarding the engineering drawings and design calculations detailedbelow is not required for a classification society approved container.Maintaining classification society certification will provide acceptance of thecontainer at other locations throughout the world.
NATA ACCREDITED When a container is presented to a NATA accredited facility for inspection
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FACILITYRESPONSIBILITIES
and testing according to these guidelines, the facility management isresponsible for ensuring the safety of offshore containers.
ALLOWABLEDEFLECTIONDURING &SUBSEQUENT TOLOAD TESTING
Allowable deflection limits are detailed within DNV 2.7-1 Certification notes– Offshore Containers.Refer to sections 3.7.1.2 & 3.7.1.3 of referenced DNV document.
COMMENTS ONDEFLECTIONLIMITS
Where deflection exceeds the maximum allowable limit, the container shouldbe either, de-rated, strengthened, or scrapped.
SLINGS Sling sets may be chain or wire rope.
• Material for chain used in 5th leg of a 5 leg assembly must comply withISO 3076.
SHACKLES Shackles must be:• Grade “S” minimum• Safety pin type with split pin fitted• Bow shackles are preferred
CERTIFIED VISUALINSPECTIONREQUIREMENTS
The following should be considered when undertaking certified visualinspection• container is free from obvious defects, significant corrosion, impact
damage, cracks, etc;• under-floor support structure inspection;• place container on supports to allow full inspection of underside and
ensure adequate lighting;• look for extensive corrosion and/or any cracking;• it may be necessary to sand blast corroded steel to allow full inspection;• suspected areas of cracking to have NDT inspections carried out;• steelwork that has suffered metal loss of 10% or greater through
corrosion, is to be replacedNote: This may require UT checks to quantify metal loss;
• complete structure to be examined for corrosion, cracking, and impactdamage. Particular attention is to be given to inspection of lifting points,under-side members and corner post assemblies;
• visually inspect all welds for defects;• inspect for signs of mechanical damage;• doors, frames, seals, hinges, locks should be examined and functionally
checked to ensure satisfactory operation without undue force;• check floor is substantially flat with no signs of damage or other
indications that may indicate overloading. Any internal floor damage mayindicate underside damage- re-check; and
• marking plates in accordance with these guidelines.
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TESTING OFWORKSHOPCONTAINERS,LOGGING UNITSETC.
It is recognised that it is extremely difficult, and in some cases impossible, tofit the required test weights into containers that have work benches, shelvingetc. It is also impossible to fit weights into many logging units and othercontainer style cabins that either are full of specialised equipment used byservice companies or, only have personnel access doors.
In the case of these units it is recommended that more stringent inspectionrequirements apply to these units in lieu of any load testing.
6 YEARLYINSPECTION OFWORKSHOPCONTAINERS,LOGGING UNITSETC. THAT CANNOTBE LOAD TESTED
Where test weights cannot be evenly distributed across the floor area of anycontainer, logging unit etc. the following inspection methods shall be used toensure the on-going integrity of the equipment. These requirements shall beadditional to the annual, thorough visual and NDT inspection requirementspreviously outlined.Note: This method of integrity assurance will be in lieu of load testing and willonly be carried out by facilities accredited with NATA for visual or NDTinspection or Classification Societies (e.g. DNV, Lloyds etc.)
• Place container on racks to allow full underside inspection.Note: Do NOT walk underneath containers suspended by fork-lift orcranes.
• Abrasive blast 25% of under-floor structural welds.• Carry out MPI on all welds cleaned by blasting• Where cracking is found in the underside should be completely abrasive
cleaned and all structural welds inspected by MPI method.• Carry out UT testing of any under-side structural members suspected of
having areas of > 10% metal loss.Note: If any metal loss of > 10% is detected, the remaining structuralmembers shall also be UT checked for metal loss.
• Carry out repairs as required using approved welding procedures,qualified welders and trace-able materials equivalent to the originalstructure members as detailed on the engineering drawings.
• Carry out MPI on all weld repairs and rectify any faults detected.• Re-coat underside of container with a suitable coating for the offshore
environment.• NATA accredited facility shall provide the equipment owner with a “stick
diagram” of the container underside. The diagram shall identify membersand joints inspected.
• The equipment owner should ensure that all QA documents relating torepairs carried out are complied and retained on file for future reference.
Note: Whilst the abrasive blast requirements may, at first seem to be quiteextensive, it will, in most cases be advantageous as many containers willrequire re-application of coatings (particularly underneath) at the end of 6years and this work will fit well with that requirement.
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VISUAL INSPECTORKNOWLEDGEREQUIREMENTS
The inspector must have, as a minimum, a knowledge and adequate practicalexperience of:• The statutory requirements relating to containers.• The provisions of DNV 2.7-1• The various types of containers in service.• The correct methods of slinging and handling the containers.• The loads, stresses and strains affecting containers when handled under
adverse offshore conditions.• The methods of testing containers as detailed in Maritime Safety.
Committee circular 860 or, DNV2.7-1 Offshore Container, CertificationNotes.
• Defects likely to be found in containers and acceptable levels of wear,distortion and deterioration in relation to safety in use.
• Welding methods and procedures and qualification of welders.• The various methods of non-destructive examination (NDE) and a good
understanding of how they work and their limitations• Techniques for measuring container to ensure distortion has not occurred
during service or load testing• Inspection of rigging and lifting equipment as per the category ‘Lifting
Sling(s)’ as detailed in Table F3.
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OK NOREQUIREMENTS TOBE MET PRIOR TOISSUING A“CERTIFICATE ofCONFORMITY”
• Engineering drawings have been prepared or reviewed by a"body" meeting the requirements of section 2.6
• Drawings meet the requirements detailed within thisdocument.
• Container been inspected in accordance with “CertifiedVisual Inspection Requirements” as detailed in Appendix I.
• • • Engineering drawings and structural analysis support any
modifications.• Pad eyes are fitted to the container• Pad eyes have engineering design drawings available• Pad eye design complies with the requirements of this
document.• Container has been de-rated as per requirements of this
document• Container has been load tested as per requirements of this
document• There is no permanent distortion of the container following
load testing (Refer to DNV 2.7-1, section 37.1.2 & 3.7.1.3)• Fork-lift pockets marking is as per the requirements of this
document.• Material for chain used in 5th leg of a 5 leg assembly must
comply with ISO 3076.• NDT of pad eye welds, structural member welds and floor
support structure has not revealed any cracking (or repairshave been effected)
Figure I.1: Suggested Offshore Container Identification Plate
OFFSHORE CONTAINER Name of Manufacturer Month/year of Manufacture Manufacturers Serial No. Maximum Gross Weight kg at deg sling angle Tare Weight kg Payload Container kg Intermediate Deck kg Certificate of Conformity No. Design Temperature Degrees C
IDENTIFICATIONPLATE MATERIAL &SIZEREQUIREMENTS
• Plate to be of stainless steel or marine grade aluminium, approximately 1.5 mm thick
• Affixed with stainless steel rivets (not aluminium)• 215 mm overall width• 150 mm overall height• Main heading alpha characters to be stamped 10mm in heightOther alpha & numeric characters 5mm in height
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FIGURE I.2: SUGGESTED INSPECTION DATA PLATE
215
35 180 (6 x 30)
INSPECTION DATA – OFFSHORE CONTAINER
Container No. Maximum Gross Mass kg @ deg. Apex sling angle
Tare Mass kgPayload Container kg Intermediate deck kg
Owner:Tel. No. +
++
TEST PROOF LOAD NDT VISUALINSPECTION
INTERVAL 6 YEAR TEST 3 YEAR TEST 1 YEAR TESTDATE CERT NO DATE CERT NO DATE CERT NOAT
MANUFACTURE
ATSITE
1.5 mm Stainless Steel Or Marine Grade Aluminium 5 mm LETTERING
Suggested plate incorporates ideas from international documents and localrequirements. All dimensions are shown in mm.
250 mm
70 mm
10 mm LETTERING
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FIGURE I.3 SUGGESTED ALTERNATE IDENTIFICATION PLATE
215 mm
OFFSHORE CONTAINER
Name of Manufacturer Month/year of Manufacture Manufacturer’s serial No. Maximum Gross Mass kg @ deg. Apex sling angle Tare Mass kgPayload Container kg Intermediate deck kg Certificate of Conformity No. Design Temperature oC
The suggested plate complies with international document requirements.
1.5 mm Stainless Steel orMarine Grade Aluminium
150 mm
10 mm LETTERING5 mm LETTERING
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FIGURE I.4 SUGGESTED OPERATIONAL MARKING PLATE
ID No TW-SS01
OWNER WOODSIDE
MANUFACTURER DISON
DATE OFMANUFACTURE
12/96
TYPE OFFSHORE EQUIPMENT CONTAINER
All dimensions shown are in mm.
200
1.5mm Stainless steel orMarine Grade Aluminium
90
3.2
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FIGURE I.5 SUGGESTED IDENTIFICATION NUMBER DETAIL
75mm high lettering, 7.5mm thick
PW - SS01
VARIES
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FIGURE I.6: SUGGESTED ALTERNATE OFFSHORE CONTAINER INSPECTIONDATA PLATE
INSPECTION DATA-OFFSHORE CONTAINER
Container No.Maximum Gross Weight (wt) kg at deg, Apex sling angleTare Weight kgPayload - Container kg Mid- deck kg (Where Applicable)
Owner:Tel. No. +
DATE: DATE: DATE:
TEST TYPE: TEST TYPE: TEST TYPE:
TESTED BY: TESTED BY: TESTED BY:
DATE: DATE:
TEST TYPE: TEST TYPE:
TESTED BY:
DATE:
TEST TYPE:
TESTED BY: TESTED BY:
DATE: DATE: DATE:
TEST TYPE: TEST TYPE: TEST TYPE:
TESTED BY: TESTED BY: TESTED BY:
DATE:
TEST TYPE:
DATE:
TEST TYPE:
TESTED BY:
DATE:
TEST TYPE:
TESTED BY: TESTED BY:
DATE: DATE: DATE:
TEST TYPE: TEST TYPE: TEST TYPE:
TESTED BY: TESTED BY: TESTED BY:
INSPECTION DATAPLATE MATERIAL &SIZEREQUIREMENTS
• Plate to be of stainless steel or marine grade aluminium, approximately 1.5 mm thick
• Affixed with stainless steel rivets (not aluminium)• 215 mm overall width• 250 mm overall height (approx.)• Main heading alpha characters to be stamped 10mm in height• Other alpha & numeric characters 5mm in height
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ONGOINGINSPECTION & TESTREPORTS
Ongoing, in-service reports will include the following as appropriate:• Visual Inspection Reports;• Load Test Reports; and• Non Destructive Testing Reports.