Download - Kimray - Glycol Pumps
Energy Exchange Glycol Pump
Wet Glycol from Absorber (High Pressure) Wet Glycol to Reboiler (Low Pressure) Dry Glycol from Reboiler (Low Pressure) Dry Glycol to Absorber (High Pressure)
F1= P1A1 F1= P20.8 A1
A1
A2
F1
P1A1 = P20.8 A1
P2 = 1.25 P1
P1
P2
P1 P2
• The shaft area is 20% the piston area.
• Dry Glycol Discharge Pressure is 25% greater than absorber pressure.
• About 25 to 30 psig is.needed.to
overcome the pump friction plus any other pressure drops along the dry glycol discharge pressure line.
Discharge Pressure
Features • No auxiliary power required
• Eliminates need for level control
and dump valve at absorber
• Low gas consumption
• Completely sealed system prevents glycol loss
• Only two moving assemblies
• Hydraulic “cushioned” check valves with removable seats of hardened stainless steel
• Circulation Rates: • SC Series 8 - 200 gph • PV Series 3 - 450 gph
Pump Sizing
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‡ Configuration of Glycol pump is a trademark of Kimray, Inc.G:10.8Issued 1/13
Current Revision:Change Logo
GLYCOL PUMPS
“PV” & “SC” SERIESCHARTS & DIMENSIONS
CIRCULATION RATE GRAPH
* It is not recommended to attempt to run pumps at speeds less or greater than those indicated in the above graph.
DIMENSIONS
Model Number
Model
Number
Max. Cap Size of Pipe
Connections
Mounting
Bolts
Approx.
Weight
Max. Strokes
Minute
Glycol Output
Strokes/Gal.
Glycol Output
Gal./StrokesG.P.M. G.P.H.
1715 PV .67 40 1/2" N.P.T. 3/8" Dia. 66 Lbs. 40 59 0.017
4020 PV .67 40 1/2" N.P.T. 3/8" Dia. 66 Lbs. 40 59 0.017
9020 PV 1.5 90 3/4" N.P.T. 1/2" Dia. 119 Lbs. 40 26.3 0.038
Selecting Your Pump Model
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‡ Configuration of Glycol pump is a trademark of Kimray, Inc.G:10.6Issued 1/13
Current Revision:Change Logo
GLYCOL PUMPS
“PV” & “SC” SERIES
GAA 315 PV 3 13 100 1500 GAD 1720 PV 8 40 300 2000 GAB 4020 PV 12 40 300 2000 GAF 9020 PV 27 90 300 2000 GAH 21020 PV 66 210 400 2000 GAJ 45020 PV 166 450 400 2000
APPLICATIONS: Circulating pump for gas glycol dehydrators Circulating pump for gas amine desulphurizers
FEATURES: Eliminates absorber liquid level controls No auxiliary power supply required Low gas consumption Completely sealed system prevents loss glycol No springs or toggles, only two moving assemblies Hydraulic “cushioned” check valves with removable seats of hardened stainless steel
OPERATION: Materials for the vital working parts have been selected for greatest wear resistance. These materials include stainless steel, hard chrome plating, satellite, nylon and teflon. Moving “O” Ring seals are compounded specifically for ethylene glycol service. A complete operational check is given each pump after assembly. “O” Ring sealed check valve darts are standard in all except the model 315 PV. Teflon sealed darts are available. Capsule type ball checks are used in the 315 PV and are available for 1720 PV, 2015 SC and 4020 PV.*These pumps are designed for operating pressures between 100 and 500 psig maximum design pressure for all models is 1500 psig.
**Maximum output is affected by system pressure drops. See system operation parameter for maximum output curves.
:
MAXIMUM DESIGN PRESSURE FOR P.V. MODELS IS 2000 psig AND S.C. MODELS IS 1500 psig
CatalogNumber
ModelNumber
CapacityGal. / Hr.
WorkingPressure
Min. Max.** Min. Max. GAC 2015 SC* 8 20 100 500 GAG 5015 SC* 12 50 100 500 GAI 10015 SC* 22 100 100 500 GAK 20015 SC* 60 200 100 500
NOTE: To order a Pump with Viton O Rings add 1 to Catalog number. Example: To order GAA with Viton O Rings, specify: GAA1.
CatalogNumber
ModelNumber
CapacityGal. / Hr.
WorkingPressure
Min. Max.** Min. Max.
“SC” SERIES GLYCOL PUMPS“PV” SERIES GLYCOL PUMPS
®‡
Gas Consumption
www.kimray.com
‡ Configuration of Glycol pump is a trademark of Kimray, Inc.G:10.8Issued 1/13
Current Revision:Change Logo
GLYCOL PUMPS
“PV” & “SC” SERIESCHARTS & DIMENSIONS
GAS CONSUMPTIONOperating Pressure --p.s.i.g. 300 400 500 600 700 800 900 1000 1100 1200 1300 1400 1500Cut. Ft./Gallon @ 14.4 & 60°F. 1.7 2.3 2.8 3.4 3.9 4.5 5.0 5.6 6.1 6.7 7.2 7.9 8.3
CIRCULATION RATE GRAPH
* It is not recommended to attempt to run pumps at speeds less or greater than those indicated in the above graph.
DIMENSIONS
Model Number
“PV” Series “SC” Series
Dimensions, Inches
A B C D E F G H J K L M N P1720 PV 5 1/4 5 11/16 5 3/4 3 7/16 1 1/2 3 1/2 7 1/4 10 7/8 10 3/16 9 5/8 15 2 1/8 1 3/4 3
4020 PV & 2015 SC 5 1/4 5 11/16 5 3/4 3 7/16 1 1/2 3 1/2 7 1/4 10 7/8 10 3/16 9 5/8 15 2 1/8 1 3/4 3
9020 PV & 5015 SC 6 1/4 8 1/4±1/8 6 3/8 5 1 3/4 4 1/4 8 3/4 13 1/4 13 7/8 11 3/4 20 2 1/2 2 3
21020 PV & 10015 SC 7 5/8 10 1/8±1/8 7 5 3/8 2 1/4 5 3/4 9 1/4 14 3/4 16 5/8 13 24 3 3/16 2 1/2 4
45020 PV & 20015 SC 10 3/4 14 ± 1/8 9 6 5/8 2 5/8 6 1/2 11 3/8 19 21 1/8 16 3/8 34 3 3/4 3 1/2 6
Model
Number
Max. Cap Size of Pipe
Connections
Mounting
Bolts
Approx.
Weight
Max. Strokes
Minute
Glycol Output
Strokes/Gal.
Glycol Output
Gal./StrokesG.P.M. G.P.H.
1715 PV .67 40 1/2" N.P.T. 3/8" Dia. 66 Lbs. 40 59 0.017
4020 PV .67 40 1/2" N.P.T. 3/8" Dia. 66 Lbs. 40 59 0.017
9020 PV 1.5 90 3/4" N.P.T. 1/2" Dia. 119 Lbs. 40 26.3 0.038
21020 PV 3.5 210 1" N.P.T. 1/2" Dia. 215 Lbs. 32 9 0.111
45020 PV 7.5 450 1 1/2" N.P.T. 1/2" Dia. 500 Lbs. 28 3.5 0.283
2015 SC .33 20 1/2" N.P.T. 3/8" Dia. 66 Lbs. 55 147 0.0068
5015 SC .83 50 3/4" N.P.T. 1/2" Dia. 119 Lbs. 50 52 0.019
10015 SC 1.67 100 1" N.P.T. 1/2" Dia. 215 Lbs. 48 25 0.040
20015SC 3.33 200 1 1/2" N.P.T. 1/2" Dia. 500 Lbs. 40 8.8 0.114
Dehydration Pressures
Advantages: • Long life / high cycles • Elimintates the use of a Liquid Level
Controller • Does not requiere external source
of power. • Low Linear velocity in Piston O-
Rings • Completely sealed system prevents
glycol loss. • Does not leak when failing • Only two moving parts
Disadvantages: • Gas Emissions to atmosphere • High Operating Cost due to emissions • Pulsation • Elastomers have to be compatible with
process fluid • Check Valves wear • Can mix dry glycol with wet glycol if piston
seal fails
• Approximately 36,000 glycol dehydrators in the natural gas production sector are used to remove water from the gas.
• Most glycol dehydration systems use triethylene glycol (TEG)
• Gas-assisted pumps are the most common circulation pumps in remote areas that do not have an electrical power supply
• Typical methane emissions are about 1,000 cubic feet (Mcf) for each million cubic feet(MMcf) of gas treated.
• Replacing gas-assisted pumps with electric pumps increases system efficiency and significantly reduces emissions. For example, a 10 MMcf per day dehydrator could save up to 3,000 Mcf of gas a year, worth $21,000.
Replacing Energy Exchange Pumps for Electric
Source: EPA
Kimray 50015 EV Pump
• Flow to 8.3 gpm at 1,200 RPM • Rated to 1500 Psig • 316 SST manifold • 17-4 SST valves and seats • FKM (Viton) and Aflas
diaphragms
Features
Electric Motor Power (HP) = Glycol Flow Rate (gpm) * Absorber Pressure (psig) / 1460
Main Components
Connecting Rod
Inlet Check Valve
Discharge Check Valve
Plunger
Connecting Rod
Diaphragm
Electric Glycol Pump
Advantages
•No emissions to atmosphere •No fluid pulsations allows installation of a liquid Flow Meter •Compact and light •Quiet •Crankshaft, plunger and cylinders are isolated from the process fluid. •Does not leak to the environment when failing. •Can pump in dry without damage •Can pump corrosive and abrasive fluids.
Disadvanteges • Check valves wear • Diaphragm needs to be compatible to
the fluid • Use of electricity • A safety valve for discharge is needed
Kimray Electric Instrumentation
Electrohydraulic Actuator
Electric Level Controller
Electric Glycol Pump
Kimray Instrumentation in a Dehy Unit Scrubber Absorber Reboiler Flash Tank BTEX After Scrubber Brand
PSV X X X
TSH X Kimray
TI X X X X
TIC X Kimray
TCV X Kimray
TSH X Kimray
BSL X Kimray
PI X X X
PCV X X X Kimray
SDV X
LCV X X X X Kimray
LC X X X X Kimray
LSLL X Kimray
LSHH X X Kimray
Take Away • How an Energy Exchange pump works • Sizing an Energy Exchange Pump • Different Dehy configurations for Energy Exchange Pump and
Electric Pump. • Energy Exchange Glycol Pumps have gas consumption and
environmental concerns. • Electric Glycol Pump can pump Corrosive and Erosive Fluids. • Electric Instrumentation is essential to avoid emissions to the
atmosphere. • It is desirable to work with the Electric Pump and use the
Energy Exchange pump as a Backup • New Kimray Dehydration Technology using Electric
Instrumentation.
Questions on Kimray Instrumentation Training Contact:
Sharon Harrison Training Manager [email protected]