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Manufacturers |
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Self-Priming Centrifugal Pumps from 2”to 12”, Available in
Electric or Diesel, Wide Choice of Materials, Parts Interchangeable with Gorman
Rupp T Series and Rotating Assembly Replacements for Super T. AllPrime pumps have the best performance
and economy when a self priming pump is needed. Maintenance is simple and quick; inspect
and clean without disconnecting pipe work (back - pull - out), shimless external impeller adjustment, automatic
self-priming & that does not require a suction check valve, solids
handling capabilities, large pump range, diverse materials of construction;
commonly used for wastewater, industrial, construction, farms, etc. AllPrime always
quick and Easy! Adjustment shimless
external impeller. ·
An
easy to use external impeller clearance adjustment system allows the impeller
and wear plate to operate with optimum clearances without disassembly. Using only
common hand tools, the pump can be maintained at peak efficiency to extend
both impeller and wear plate life. Automatic self-priming with no
suction check valve required ·
The
AllPrime I and S series
pumps are equipped with a suction check valve but do not require the check
valve to be in place to re-prime. The large volume of liquid carried in the
volute allows dry suction re-priming. Materials ·
Casing—Ductile
Iron, ADI, CD4 MCu, 316 SS ·
Impeller—A
60-40-18, A 216, ADI, CD4 MCu, 316 SS |
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Ampco Pumps Company is a leading manufacturer of
stainless steel, duplex stainless steel, and nickel aluminum bronze
centrifugal pumps for the sanitary, marine and industrial markets. Nickel Aluminum Bronze Pumps, Ideal for Saltwater, Brackish
Water, Waste Water, and Many Pollution Control Applications. The Overall Corrosion/Erosion Resistance of
this Alloy to Saltwater is Five Impeller Designs: Enclosed,
Semi-enclosed, Open, Stringy Material & Slurry Duty Applications: Commercial Saltwater Including Booster
and Supply Pumps on Water Treatment Systems Including Reverse Osmosis,
Distillation and Desalinization, Bilge, Ballast, Engine Cooling, Condenser
Cooling, Refrigeration, Washdown, Saltwater Supply,
Circulation, and Fire Pumps Flows from 5 gpm
up to 1600 gpm, Heads up to 350 ft |
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Air-Operated
Double-Diaphragm Pumps and Packages ·
Husky standard, abrasion resistant and
corrosion resistant double-diaphragm pumps. ·
Broad material
selection. · THE Preferred AOD pump. |
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Positive Displacement Sealless Hi Applications Include: Injecting Chlorine into the Waste
Water Stream, Biocides into the “White Water”, Polymer Injection, Reverse
Osmosis Systems, Chemical Metering, Descaling Capacity
.2 gpm up to 37 gpm (0 -
2,200 gph), Pressures 30 psi
up to 2,500 psi ·
Diaphragm ·
Metering
diaphragm (with turndown gearbox) · Slurry-duty diaphragm · Valves · Accessories
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Submersible Grinder Pumps, 2 HP up to 15 HP, 4” Non-Clog Pumps from 2 HP up to 20 HP ·
residential
2-HP Grinder pumps up through 7.5-HP, and ·
3” Non-Clogs
from 1/2 - 2-HP, ·
4” - 14” Non-Clogs from 3-HP - 100-HP both in
recessed and 2-Vane style impellers. |
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2, 3, and 5 Rotor Screw Pumps for Power Generation, Chemical Process, Oil & Gas and Marine Heads up to 2,300 psi, Capacity up to 8,000 gpm LEISTRITZ Rotary Screw Pumps-- with an Unmatched Combination of Features Based on 70 Years of Screw Pumps Design, Manufacturing and User Experience-- are Simply the Most Advanced Rotary Pumps Available Today. Take Advantage of the Latest Technology by Including the Following in Your Next Rotary Pump Specification: · Low Pulsation for Smooth, Quiet Operation · Direct-Drive for Design and Operational Simplicity · Low Shear for Protection of the Pumped Fluid · Hydraulic Balance for Minimal Deflection and Wear · Cartridge-Type Rotating Assembly for Easy Servicing · Integral Relief Valve to Eliminate External Valves and Piping · Built-In Heat Jacket to Facilitate Cold Start · Customized Ports to Adapt to the Best Piping Arrangements for the System · Selection of Materials for the Longest Service Life Leistritz Rotary Screw Pumps
Typical Service: Asphalt & PMA, MDI & MDA, Lube Oil, Pitch & Tar, Bunker C & Heavy Fuel Oil, Diesel Oil & VGO. Performance Data: Flow from 3 to 1,700 gpm, Differential Pressure 250 psi (max), Viscosity from 33 to 1,000,000 SSU, Temperature from 5 to 545 F.
Typical Service: Asphalt, Asphaltenes, Pitch & Tar, Lube Oil, Light & Heavy Fuel Oil, Kerosene, Residuals, Vacuum Bottoms. Performance Data: Flow from 3 to 1,100 gpm, Differential Pressure 2,300 psi (max), Viscosity from 33 to 200,000 SSU, Temperature from 5 to 360 F.
Typical Service: Oil/Water/Gas (Multiphase), Polymer, Crude Oil, Emulsions, Resins, Molasses, Naptha, Residuals, Vacuum Bottoms. Performance Data: Flow from 10 to 8,000 gpm, Differential Pressure 1,200 psi (max), Viscosity from 1 to 1,000,000 SSU, Temperature from 5 to 600 F.
Typical Service: Asphalt & PMA, Lube Oil, Pitch & Tar, Bunker C & Heavy Fuel Oil, Diesel Oil & VGO. Performance Data: Flow from 500 to 5,300 gpm, Differential Pressure 150 psi (max), Viscosity from 33 to 10,000 SSU, Temperature from 5 to 340 F.
Multiphase Pumps New Technology for Enhanced Crude Oil Production. Conventional Methods for Producing Oil and Gas Can Now be Replaced by a Simpler, More Economic Technology known as Multiphase Pumping. Multiphase Pumping does not Require Separation of Oil, Gas, or Water, so Production from the Wells can be Gathered and Pumped to a Central Processing Area without Requiring Separate Flow Lines, Separators, Heater Treaters, Intermediate Storage Tanks, Gas Flares, Compressors, and Separate Pumping Facilities. Elimination of this Equipment Means a Smaller Platform and a Much More Economical Installation can be Used to Boost the Production (i.e., Increase its Pressure) so it can Move Downstream for Processing. Multiphase Pumping Can Handle Low Inlet Pressures, Which Makes it Ideal for Lowering the Backpressure Against the Well. In Many Wells, Particularly Those on Artificial Lift, Substantial Gains and an Accelerated Production Rate Can be Achieved with Even a Modest Drop in Pressure - Enough to Payout the Costs within a Few Months in Many Cases. |
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Rotary Lobe Positive Displacement
Pumps, Low Shear, Handles Gas Entrained
and Viscous Fluids, 4-12” Discharge Features: ·
Pump Can Run Dry ·
Low Shear Action · Reversible Flow · Can Handle Gas/Air Entrained and Viscous Fluids · Quickly & Easily Clears Jams · Handles Solids · Used for Controlled Flow and Metering |
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Positive Displacement
Reciprocating Plunger/Piston and Diaphragm Pumps, Custom Built Pump Packages McFarland-Tritan, LLC offers a complete line of positive displacement reciprocating plunger / piston, and diaphragm pumps for chemical injection metering, hydrostatic testing and high pressure water jetting applications as well as a wide range of fluid samplers. Stonebor Air/Gas Driven Pumps Stonebor air operated pump/gas driven pumps are small, lightweight and easily maintained stainless steel single plunger pumps. These plunger pumps are smaller than their McFarland-Tritan, LLC air operated pump /gas driven pump cousins and offer the Stonebor name you rely on. These corrosion resistant plunger pumps, due to their stainless steel construction, are ideal for the injection of small-metered amounts of chemicals. The use of air/gas drive and corrosion resistant materials allow use in difficult and hazardous areas such as offshore oil/gas platforms. McFarland-Tritan, LLC Electric or Engine Driven Pumps are engineered for long, low
maintenance service. Fluid ends are manually adjustable while running and can
be "stacked" into multiplex units to increase discharge volume.
McFarland-Tritan, LLC Electric of Engine Driven
Pumps are designed for high-pressure chemical
injection and hydrostatic testing applications. Electric or engine driving
allows for a difference in flow rate at the same discharge pressure with
stroke adjustment inverter drives or reducer ration selections. Stonebor Electric or Engine Driven Pumps are small, simple, and
easily maintained and made from stainless steel construction, for corrosion
resistance. These pumps are ideal for small-metered volumes for chemical
injection applications. Stonebor pumps are NACE
certified. Electric or Engine Driven Pumps are engineered for long low
maintenance service. Fluid ends are manually adjustable while running.
Electrically driven pumps provide the difference in flow rate, at the same
discharge pressure. Tritan - Triplex reciprocating plunger pumps are engineered to provide
longer life and lower maintenance cost and are driven by electric motor,
gasoline or diesel engine. Fluid ends are available in aluminum bronze,
ductile iron, or stainless steel depending on application. Triplex pumps are
positive-displacement reciprocating plunger pumps that are configured with
three plungers and they are the most common configuration of pump used in
high-pressure service operations and water jetting and blasting. Hydro Laser High
Pressure Water Jet Cleaning Machines Standard
and custom high-pressure Hydro Laser units are built with Tritan
triplex or quintuplex pumps. Quintuplex
and triplex pumps are positive-displacement reciprocating pumps that are
configured with three or five plungers. High pressure water pumps used in
high pressure water blasting and water jetting operations. Diaphragm Pumps Hydraulically Actuated
Diaphragm Metering Pumps (0.8
to 56 GPH) Series MAC-J-5 -
Electric Operated, Hydraulically Actuated Diaphragm Metering Pumps (0.8 to 56 GPH) Features/Benefits: Diaphragm pumps are specially
designed for accurate, completely leak-proof metering of difficult-to-handle
liquids. Separate chambers for hydraulic fluid and gear lubricant make
possible the use of the best medium for hydraulic diaphragm pulsing and the
best medium for gear lubrication. The results are better pump performance and
longer pump life. The Series Mac-J-5 diaphragm pump is available in both
simplex and duplex models. Field convertible from simplex to duplex. This
diaphragm pumps offers patented, heavy-duty gear reducer system for superior
performance. Hydraulically actuated diaphragm minimizes diaphragm fatigue.
Built-in hydraulic relief valve protects the pump. Stroke rate easily
automated using variable-speed drive. |
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Regenerative Turbine Pumps,
Centrifugal Pumps, and Canned Motor Pumps MTH Pumps - Standard Products The
MTH Current Standard Product Line Consists Mainly of Regenerative Turbines
Covering Capacities from 1 to 150 Gallons Per Minute and Pressures up to 1000psi.
MTH also Manufactures a Line of Small Centrifugals in Ranges up to 60psi and
100GPM. Pumps are Available in All Iron, All Bronze, Bronze Fitted, Bronze
Ring, and 316 Stainless Steel. The Self-Adjusting Impellers Featured in the
MTH Turbine Designs Assure Dependable Performance, with Low Maintenance and
Long Operating Life. Centrifugals Feature Stainless Steel Impellers and
Adjustment Screws to Fine Tune, and Occasionally Renew Performance. P31 Series Regenerative Turbine
Pumps •
Close Coupled
Pumps •
Capacities to 5
GPM up to 250 Feet of Head •
Stainless Steel
Construction Standard T31 Series Regenerative Turbine
Pumps •
Close Coupled or
Flexible Coupled Pumps •
1 - 9 GPM up to
230 Feet of Head •
All Bronze or Cast
316 Stainless Steel Construction Available
E41 • T41 Series Regenerative
Turbine Pumps •
Close Coupled,
Vertical Flange Mounted, or Flexible Coupled Pumps •
2 - 22 GPM up to
350 Feet of Head •
All Bronze,
Bronze Fitted, All Iron, or Cast 316 Stainless Steel Construction Available MTH Pumps – Special Customer
Products ST31 • SE41 • SE51 • SM50 • SL50
Series Sealless Pumps Sealless Canned Regenerative Turbine Pumps
1
- 40 GPM up to 2300 Feet of Head Temperatures
to 302°F (150°C) Stainless
Steel Construction Standard X41 Series Pumps Sealless Canned Regenerative Turbine Pumps
2
- 22 GPM up to 350 Feet of Head Cast
316 Stainless Steel Construction Standard S31 • S41 • S51 Series Immersible Pumps Sealless Immersible
Regenerative Turbine Pumps 1
- 22 GPM Capacity Heads
to 600 Feet HRC • HAS • HAR Series Sealless Canned Centrifugal Pumps Sealless Canned Centrifugal Refrigeration
Pumps Capacities
to 80 GPM Heads
to 250 Feet Temperatures
to -95°F (-70°C) H Series Sealless
Canned Centrifugal Pumps Sealless Canned Regenerative Turbine Pumps
Capacities
to 2000 GPM Heads
to 500 Feet Temperatures
to 750°F (400°C) ST21 Series DC Brushless Pumps Sealless Canned Regenerative Turbine Pumps
Capacities
to 2 GPM Heads
to 450 Feet Temperatures
to 190°F (88°C) SC31 Series DC Brushless Pumps Sealless Canned Centrifugal Pumps Capacities
to 10 GPM Heads
to 200 Feet Temperatures
to 190°F (88°C) |
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Full API & ANSI Vertical &
Horizontal, Cryogenic, Multi Stage, Vertical Turbine, Axial Flow, Mixed Flow
& Marine Centrifugal Pumps Process Pumps (API & Non-API) -- Applications for Pipeline and
Process Service in Refineries, Petrochemical Plants, Oilfields, On and
Offshore Facilities, Power Plants and General Heavy Duty Industrial Services. Horizontal Process Pumps, Single
Stage—Radially
Split Casing Centrifugal, API 610.
Flows to 12,340 USGPM (2,800 m3/hr), Heads to 1,300 ft (400 m),
Pressures to 667 psi (47 kg/cm2), Temps from -50 to
850 F (‑46 to 450 C), Discharge Flanges from 1- to 12-in (25mm –
300mm). Models: SCE, RPP-8, SVN. Horizontal Process Pumps, Two
Stage—Radially
Split Casing Centrifugal, API BB2.
Flows from 75 to 3,520 USGPM (18 to 800 m3/hr), Heads from 560 to 1,960
ft (170 to 600 m), Pressures to 1,390 psi (98
kg/cm2), Temps to 750 F (400 C), Discharge Flanges
from 2-in to 10-in (50mm – 250mm).
Models: RON, CGT. Horizontal Double Suction Pump,
Between Bearing Single Stage—Radially Split Casing, API 610. Flows to 20,000 USGPM (4,545 m3/hr), Heads
to 1,700 ft (518 m), Pressures to 1,500 psi (106
kg/cm2), Temps to 430 F (185 C).
Models: HVN, J Line, JD. Horizontal Process Pumps, Multi
Stage—Axially Multi Stage Axially Volute Casing Centrifugal Pumps—Horizontal Single or Double Stage, Axially Multi Stage, Single Suction Barrel
Pumps—Horizontal Centrifugal, Radially Split, API 610.
Flows to 1,700 USGPM (4,000 m3/hr), Heads to 5,250 ft (1,600 m),
Pressures Basic to 2,540 psi (178 kg/cm2), Special
to 4,785 psi (335 kg/cm2), Temps to 840 F (450 C),
Discharge Flanges from 1 ½-in to 8‑in (40 mm – 200 mm). Models:
AN, ADC, ADSL. Vertical Inline Process Pumps—Radially Vertical Barrel Pumps—Single or Multi Stage, Single or Double Suction. Flows to 45,000 USGPM (9,500 m3/hr),
Heads to 3,500 ft (1,060 m), Pressures to 1,500 psi
(105 kg/cm2), Temps to 1,050 F (565 C), VMT (cryogenic) Temps to -320 F
(-196 C), Power to 4,000 HP (3000 kW).
Models: VLT (LQ and MQ), VLT
(Diffuser), VMT (KX, DX, RX). Hydraulic Decoking Jet Pumps—Horizontal, Multistage, Single Suction, Barrel, Radially Hydraulic Decoking System—Crosshead with Industrial Pumps (ANSI & Non-ANSI) -- Applications
for Chemical, Hydrocarbon and Water for Transfer, Cooling Water, Water
Recovery, Irrigation and General Services. ANSI—Single Stage Horizontal Centrifugal Pumps, Vertically Horizontal Horizontal Fire Pumps—Horizontal Vertical Turbine Pumps—Multistage Pumps.
Flows to 60,000 USGPM (13,636 m3/hr), Heads to 2,500 ft (762 m),
Pressures to 1,080 psi (76 kg/cm2), Temps to 250 F
(121 C). Models: VTP, HQ. Vertical Axial Flow Pumps—Multistage Centrifugal Pumps. Flows to 132,000 USGPM (30,000 m3/hr),
Heads to 66 ft (20 m), Pressures to 28 psi (2
kg/cm2), Temps to 176 F (80 C).
Models: VAF, POV, PV. Vertical Circulator and Mixed Flow
Pumps.
Flows to 220,000 USGPM (50,000 m3/hr), Heads to 575 ft
(175 m), Pressures to 150 psi (11 kg/cm2),
Temps from -20 F to 275 F (‑30 C to 135 C). Models:
HX, KX, RX, WX, VMF, TR. Sump Pumps—Vertical, Single Suction, Single Stage. Flows from 10 to 2,800 USGPM (3 to 650 m3/hr),
Heads from 10 to 400 ft (3 to 120 m), Pressures to 175 psi
(12 kg/cm2), Temps to 400 F (200 C). Model:
Sump Pump. Heavy Duty, Double Suction,
Vertical Process Pumps. Flows from 1,500 to 50,000 USGPM (340 to
11,360 m3/hr), Heads from 40 to 600 ft (12 to 183 m), Pressures to
280 psig (19 kg/cm2), Temps to 300 F (150
C). Discharge flange size from 10-in
to 36-in (250 mm to 900 mm).
Model: DSV. Centrifugal Pumps, Single Stage,
Single Suction Design—Radially Split, Horizontal Pumps. Flows to 12,340 USGPM (2,800 m3/hr),
Heads 525 ft (160 m), Pressures to 300 psi (21
kg/cm2), Temps to 410 F (210 C).
Discharge Flange sizes from 6-in to 16-in (150 to 400 mm). Models:
SO, SOM. Floating Dock Pumps, Single Stage
Double Suction Design—Radially Split, Vertical Foot Mounted, Centrifugal
Pumps. Flows from 750 to 26,500 USGPM
(170 to 6,000 m3/hr), Heads from 10 to 66 ft (3 to 20 m), Pressures to
72 psi (5 kg/cm2), Temps
to 104 F (40 C). Discharge Flanges
from 12-in to 28-in (300 – 700 mm).
Model: ZVZ. Cryogenic
Pumps—Liquid Nitrogen and Other Liquid Gases. Cryogenic Pumps—Vertical, API 610, Special Sealing, VLT Cryogenic Single
or Multi Stage, VLTV (Diffuser), SVNV Single Stage. Flows from 10 to 13,200 USGPM (2.27 to 3000
m3/hr), Heads from 26 to 370 ft (6 to 1,152 m), Pressures to 148 kg/cm2,
Temps to -320 F (-196 C).
Discharge Flange from 5-in to 12‑in. Models:
VLT (Cryogenic), SVNV, VLTV (Diffuser). Wastewater Pumps Horizontal Centrifugal Pumps with
Single Channel Impeller—non-Clogging,
Non-Stringing Impeller, Back Pull-Out, Casing with Clean-out and Adjustable
Wear-Plate, Impeller with Large Waterway and Vanes on from and Back Shroud,
Special Waste Water or Mechanical Seal.
Flows from 300 to 8,800 USGPM (70 to 2000 m3/hr), Heads from 13 to 115
ft (4 to 35 m), Pressures to 58 psi (4 kg/cm2), Temps to 176 F (80 C). Discharge Flange from 5-in to 12-in. Model:
ESK. Two Channel Impeller Centrifugal
Pumps—Horizontal or Vertical, Single
Suction, Single Stage, Radially Split Casing. Flows from 1,760 to 3,525 USGPM (400 to 800
m3/hr), Heads from 11 to 115 ft (3.5 to 32 m), Pressures to 65 psi (4 kg/cm2), Temps to
176 F (80 C). Models: ST, STV. Horizontal Pumps with Three
Channel Impeller—Horizontal or Vertical, Single
Suction, Single Stage, Radially Split Casing. Flows from 1,100 to 13,200 USGPM (250 to
3,000 m3/hr), Heads from 6 to 131 ft (2 to 20 m), Pressures to 29 psi (2 kg/cm2), Temps to
140 F (60 C).
Model: SKO. Submersible Pumps—Volute Casing, Propeller & Mixed Flow. Flows from 1,300 to 79,000 USGPM (300 to
18,000 m3/hr), Heads from 6 to 165 ft (2 to 50 m), Pressures to 100 psi (7 kg/cm2), Temps to 104 F
(40 C). Models: STT (Volute Casing), PVT (Propeller Pump),
TRT (Mixed Flow, only for clean water), LKT (Mixed Flow). Solid Handling Pumps—Horizontal or Vertical, Single-Stage, Enclosed Impeller
for Water, Wastewater, River water or Rain Water. Flows from 80 to 7,000 USGPM (18 to
1,590 m3/hr), Heads from 6 to 140 ft (1.8 to 42 m), Pressures to 60 psi (4.5 kg/cm2), Temps to 248 F
(120 C). Models: SHP, Sump Pump. Single Stage Single Suction Mixed
Flow Pumps—Cooling Water, Drinking Water,
Rain Water, Sea Water, Sewage & Wastewater. Flows to 61,700 USGPM (14,000 m3/hr), Heads
to 147 ft (45 m), Pressures to 64 psi (4.5 kg/cm2),
Temps to 104 F (40 C), Discharge Flanges from 10-in to 36‑in (250mm –
900mm). Models: SDO, |
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Vector peristaltic pumps are designed for high
viscosity fluids, aggressive and corrosive fluids, and high purity solutions. Flow Rates to 200
GPM and Discharge Pressures to 100 psi. Models 2002 - 2004 – Flows from 0 to 4 GPM (125 GPH-continuous) at
Viscosities to 15,000 cps, Liquid Temp to 180 F (82 C), Solids to
1/16 inch (1.6 mm), Fiber Length to ¼ inch (6.3 mm) Discharge Pressures
to 22 PSI, Suction Lift to 14 ft (4.3m). Models 2005 - 2007 – Flows from 0 to 50 GPM (1,500 GPH-continuous)
at Viscosities to 15,000 cps, Liquid Temp 180 F (82 C), Solids to ¼ inch (6.3
mm), Fiber Length to 1.25 inch (12.7 mm), Discharge Pressures to 60 PSI,
Suction Lift to 20 ft (6.1 m). Models 2008
- 2009 – Flows from 0 to
135 GPM (5,900 GPH-continuous) at Viscosities to 100,000 cps, Liquid Temp to
180 F (82 C), Solids to 1 7/8 inch (48 mm), Fiber Length
to 36 inch (914 mm) Discharge Pressures to 100 PSI, Suction Lift to
24 ft (7.3 m). Model 2010 – Flows from 0 to 260 GPM (9,300 GPH-continuous) at Viscosities to
100,000 cps, Liquid Temp to 180 F (82 C), Solids to
2 ½ inch (64 mm), Fiber Length to 36 inch (914 mm) Discharge
Pressures to 116 PSI, Suction Lift to 22 ft (6.7 m). Model 3005 – Flows from 0 to 11.7 GPM (700 GPH) at 70 PSIG (or to 4 GPM at 200
PSIG) and Viscosities to 100,000 cps, Liquid Temp to 180 F (82 C),
Solids to 0.6 inch (15 mm), Fiber Length to 4 inch (100 mm)
Discharge Pressures to 200 PSI, Suction Lift to 22 ft (6.7 m). |
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Progressive Cavity Pumps & Hi
Pressure Plunger Pumps Heads
to 50,000 psi Kobe®
Triplex Pump The hazards of uncontrolled leakage
and vapor may be controlled through the use of The Applications ·
Water
Disposal ·
Hydraulic
Testing · Methanol Injection · Isostatic Compaction · Propane Transfer · Hydraulic Oilwell Pumping · Cryogenic · High-Pressure De-Burning · Industries · Pulp and Paper · Aerospace · Chemical/Petrochemical · Oil and Gas · Food · Steel/Aluminum · Petroleum Refining · Automotive · Water and Wastewater · Water Jet Horizontal
Multiplex Pumps Weatherford’s Horizontal Multiplex
Pump is a traditional horizontal, packed plunger pump designed to basic
compliance of API 674. It features pressure ranges from 500 psi to 30,000 psi and flow
ranges to 20,000 BFPD. This reciprocating pump has an over 25 input
horsepower rating from 5 to 600 HP. Temperature ranges extend from cryogenic
to 500° F. With an extensive range of
capabilities, this pump was designed as an “all purpose” fluid handling
solution for most industrial applications. ·
Applications ·
Hydrocarbon
Fluids · Water · Chemical · Sea Water · Methanol · Liquid and Synthetic Oils · Cryogenic · Water and Oil Mixtures · Industries · Pulp and Paper · Aerospace · Chemical/Petrochemical · Mining · Oil and Gas · Food · Municipal · Steel/Aluminum · Petroleum Refining · Automotive · Reverse Osmosis · Water and Wastewater · Water Jet Surface
Horizontal Pumping System Used in a variety of oilfield and
industrial applications, Weatherford’s Surface Horizontal Pumping System (HPS)
provides specific solutions to a wide range of fluid movement applications.
This system employs a conventional electric direct-coupled pumping unit, to
provide a low maintenance alternative to traditional surface pumps.
Weatherford’s HPS is also available as an electric belt driven unit and a gas
or diesel powered, belt driven unit. Delivering variable thrust loading
capacity to 12,000 lbs., this system can typically handle up to 40,000 BFPD
(6,000 m3/d) and discharge pressures ranging up to 5,000 psi
(35,000 kPa). This versatile and reliable pumping
system features design flexibility that facilitates onsite installation and
maintenance with minimal site preparation. Offering a low surface profile
coupled with a quiet vibration-free system, our HPS provides the right
solution for high-pressure applications where environmental considerations
are important. Progressing
Cavity Pumps for Industrial Applications In addition to handling water-like
materials, Weatherford pumps are used to handle sludges,
viscous and shear-sensitive slurries, heavy pastes and abrasive fluids.
Weatherford pumps have output capacities as high as 1690GPM. Applications ·
Wastewater
& Sludge ·
Food &
Beverage · Biotech · Paints & Glues · Oil & Gas · Chemicals · Plastics · Advantages · Ability to pump wide range of fluid viscosities. · Simple installation, operation, and maintenance. · Product remains unchanged during pumping process. · High resistance to abrasion and corrosion. · Minimal noise level. · Low energy consumption. Weatherford also offers
replacement parts to fit Moyno® and Tarby’s® progressing cavity pumps. Weatherford is not a
distributor for or affiliated in any way with R&M Moyno
or Dover Resources Tarby. RamPump™ Multiphase Booster Pump The RamPump™
is a duplex piston pump that operates using a hydraulic power system and can
be driven with a gas engine, diesel engine or electric motor. This unique
hydraulic drive design allows the pump to handle a wide variety of produced
fluids including up to 100% gas and sand across a broad pressure range
without prior separation. The benefits of this type of system are most
apparent to production companies wanting to lower operating pressures of
wells to maintain or even improve production but do not have the space to
install separators, flash tanks, compressors, liquid pumps and vapor recovery
units to achieve the lower well head pressure (WHP) desired. The RamPump alone can be used to lower the WHP on a well by
creating a low pressure zone between the well and the high backpressure source
such as a long flowline or downstream separator
thus minimizing equipment requirements. The RamPump
can also be used in special industrial applications with low NPSHa such as fluids operating at its flash point and
compressible fluids with entrained gas that could be damaging to conventional
pumps. Features: ·
Handles
100% gas or liquid ·
No mechanical
seals · Exclusive injectible packing system · Removeable cartridge style check valves · Extremely solids tolerant design · Modular design allows interchangeability of hydraulic systems across all pump sizes · High pressure rangeability · Hydraulic drive with 0-100% turndown Applications: ·
Lowering
wellhead pressure without separation ·
Full wellstream pressure boosting · Wet gas compression · Produced gas re-injection for gas lift · Well kick-off · Remote site process equipment optimization · Low NPSHa fluids transfer · Compressible fluids transfer such as gels, foams EWECO
Pumps and Services Mud Pumps Ellis Williams Engineering Company
(EWECO) has joined the Weatherford family. As we integrate EWECO’s industry-recognized products and services into
our web pages, please feel free to visit their website at www.eweco.com. Iron
Man™ Series Mud Pumps Built
tougher to last longer. MP series mud pumps are fabricated
for the most demanding land and offshore drilling applications. And all
include a wide array of popular accessories at no extra cost. Weatherford
ESP Pumps The principle components of Weatherford’s
multistage centrifugal pumps are nickel-alloyed iron stages that consist of
rotating impellers and stationary diffusers. Depending on desired rates and
performance, this corrosion-resistant stage construction are offered as
either floater or compression style. Our compression style pumps can cover a
broad range of desired flow rates, as they can absorb greater downthrust by transferring the forces downward through
the pump to the motor seal thrust bearing, as opposed to floater
construction, where the thrust is absorbed by the pump stages themselves. The stage geometry for all
Weatherford's pumps is either radial- or mixed-flow. Typically, the
radial-flow type is more efficient at flow rates lower than 2,500 BPD.
Mixed-flow stages are more efficient at higher flow rates, and also offer
improved gas handling characteristics. (See our Gas Separator section for
high efficiency gas handling equipment). Selecting the correct number of
stages will provide the required lift or head for the application, and the
size of each stage will determine the volume of fluid through the pump.
Weatherford specify a recommended operating range (ROR) for all pumps. It is
important to operate the pump within this range to ensure optimum efficiency
and increased run-life. Additional
features of Weatherford’s ESP pumps include: ·
Stages
mounted on nickel-copper super-alloy shaft for high inherent yield strength. ·
Main housing
material comprised of a low-carbon steel. Head and
base made from medium-carbon steel and also house abrasion-resistant TuC bearings to prevent radial wear and vibration; for
corrosive applications stainless steel housings can be provided, or carbon
steel housings can be ‘flame-sprayed’ with a monel
coating if preferred · For abrasive (sandy) conditions, abrasion-resistant tungsten carbide bearings can be used throughout the pump to maintain radial stability · Higher-strength shafts are available for cases where the number of stages and load on the shaft could cause the shaft to deform or even break under normal operating conditions · All Weatherford pumps built to ISO 9001:2000 standard and are tested to API-RP-11S2 Reciprocating
Rod Lift Systems Improving
on an Industry Standard Known traditionally as the “iron workhorse”
of artificial lift, reciprocating rod lift plays an integral role in
Weatherford’s artificial lift offerings. As the only OEM providing completely
integrated rod lift systems, Weatherford’s precision-engineered surface and
subsurface equipment plus pumping unit service, repair and refurbishment
stands unmatched in the industry today. Coupled with highly-trained
professionals, experienced technical support and in-depth analysis programs,
our integrated approach extends traditional performance capabilities of the
oldest form of lift. |
L2—An
Extremely Rugged Two-Rotor Pump without Timing ears and with Only One Shaft
Seal. With no Contact Between Rotors and Liner, the L2 Pump is Ideal in
Handling Fluids with High or Low Viscosity, with Poor Lubricity and Abrasives.
L3—A
Simplified Three Rotor Screw Pump with Total Hydraulic Balancing and Built-In
Relief Valve as Standard Features. The Cartridge-Style Pump Models are Simple
to Maintain and Allows Customized Pump Casings for Direct Fit Replacement of
Older Pumps.
L4—The
Two Rotor Timed Pump with External Bearing Allows Pumping of Practically Any
Liquid. As Standard Features it has Integral Shafts and Rotors as Well as
Replaceable Liners. The Multi-Phase Version of the Pump has Extremely Short
and Stiff Rotors for Handling up to 100% Gas at High Pressures. The Design
Allows for Total Customization with Various Seal Material and Mounting
Options.
L5—This
Five Rotor Single Flow Pump has a Very High Capacity Paired with an Extreme
Suction Lift Capability. The Pump is Very Efficiently Used as a Transfer Pump
or Unloading Pump for Heavy Oils and Asphalt.
