Help with Hydraulic Pumps specifications:
Specifications
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Maximum Discharge Pressure | The maximum pressure the pump is designed to generate. | ||
Search Logic: | User may specify either, both, or neither of the "At Least" and "No More Than" values. Products returned as matches will meet all specified criteria. | ||
Maximum Discharge Flow | The maximum flow the pump is designed to generate. This value is dependent on the system or pressure head the pump must enter. | ||
Search Logic: | User may specify either, both, or neither of the "At Least" and "No More Than" values. Products returned as matches will meet all specified criteria. | ||
Discharge Size | Size of the pump discharge or outlet connection. | ||
Search Logic: | User may specify either, both, or neither of the "At Least" and "No More Than" values. Products returned as matches will meet all specified criteria. | ||
Media Temperature | Temperature of the media being pumped. | ||
Search Logic: | User may specify either, both, or neither of the "At Least" and "No More Than" values. Products returned as matches will meet all specified criteria. | ||
Pump Type
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Your choices are... | |||
Hand / Foot Pumps | Hand pumps are manually operated pumps that can be driven by hand or foot via a handle or lever. This manual external force actuates an internal mechanism, which increases pressure for moving fluids such as gas, chemicals, or water. | ||
Testing / Calibration Pumps | Pumps that are designed specifically for testing and or calibration purposes. | ||
Booster Pumps | A pump used to increase pressure in a pressure line, or to pull from a storage tank and pressurize a system. | ||
Circulation Pumps | Pumps that are used to keep media circulating through the distribution or process system. | ||
Drum Pumps | Drum pumps are designed to transport or dispense the contents of drums, pails, or tanks. Pumps are driven by a variety of methods including hand operated, electric, pneumatic, and hydraulic driven motors. Explosive environments or flammable fluids may require an intrinsically safe actuation method. | ||
Positive Displacement Pumps | Positive displacement pumps use a mechanical force to push liquid through and out of the pump. Rotating gears, reciprocating pistons or diaphragms are the most common types of positive displacement pumps. These pumps are suitable for higher viscosity liquids or when pressure requirements are high. | ||
Peristaltic Pumps | Peristaltic pumps are rotary pumps using a turning mechanism to move media through a tube. The tube is compressed at a number of points in contact with the rollers or shoes. The media is moved through the tube with each rotating motion. The individual components of peristaltic pumps include a pump head, drive, and tubing. Peristaltic pumps are also referred to as flexible member pumps, flexible tube pumps, dispensing pumps, or dosing pumps. | ||
Gear Pumps | Gear pumps are positive displacement rotary pumps used to transport high-pressure and high-volume flows. They function through the use of two or more internal gears that create vacuum pressure, propelling the fluid media. Gear pumps provide a comparably continuous, non-pulsating flow in relation to diaphragm pumps or peristaltic pumps. For this reason, gear pumps may be preferred in a number of applications from laboratory to petrochemical and marine applications, and processes involving hydraulic presses and dry pit steam power. | ||
Piston / Plunger Pumps | Piston pumps and plunger pumps are reciprocating pumps using a plunger or piston to move the media through a cylindrical chamber. They use steam power drives, pneumatic drives, hydraulic drives, or electric drives to actuate the piston or plunger. Some piston pumps and plunger pumps are also referred to as well service or high viscosity pumps. | ||
Rotary Vane Pumps | Rotary vane pumps are liquid handling, positive displacement pumps that contain vanes in a cavity that rotates to create the flow. | ||
Other | Other unlisted or specialized pumps. | ||
Search Logic: | All products with ANY of the selected attributes will be returned as matches. Leaving all boxes unchecked will not limit the search criteria for this question; products with all attribute options will be returned as matches. | ||
Power Source
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Your choices are... | |||
None, Pump Only | Pump mechanism only. The pump is not supplied with a power source. Typically, a drive shaft for connection of motor or other power source is provided. | ||
AC Powered | Pump operates on a form of AC voltage. | ||
DC Powered | Pump operates on a form of DC voltage. | ||
Air / Pneumatic | Pump is powered by a compressed air source. | ||
Gasoline / Diesel Engine | Pump is powered by either a gasoline or diesel engine. | ||
Hydraulic | Pump is powered by a hydraulic system. | ||
Manual | Pump is driven manually by hand or foot power. | ||
Natural Gas | Pump is powered by natural gas. | ||
Steam | Pump is powered by steam. | ||
Solar Powered | A pump that gets its power from solar energy. | ||
Water | Pump is powered by a flowing or pressurized water source. | ||
Search Logic: | All products with ANY of the selected attributes will be returned as matches. Leaving all boxes unchecked will not limit the search criteria for this question; products with all attribute options will be returned as matches. | ||
Housing Material
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Your choices are... | |||
Aluminum | A bluish silver-white malleable ductile light trivalent metallic element that has good electrical and thermal conductivity, high reflectivity, and resistance to oxidation. | ||
Brass / Bronze | Brass comes with good strength, excellent high temperature ductility and reasonable cold ductility, good conductivity, excellent corrosion resistance, good bearing properties and low magnetic permeability. Sintered bronze is a porous material, which can be impregnated with oil, graphite or PTFE. Not suitable for heavily loaded applications but useful where lubrication is inconvenient. | ||
Cast Iron | The term "cast iron" refers not to a single material, but to a family of materials whose major constituent is iron, with important trace amounts of carbon and silicon. Cast irons are natural composite materials whose properties are determined by their microstructures: the stable and metastable phases formed during solidification or subsequent heat treatment. The major microstructural constituents of cast irons are the chemical and morphological forms taken by carbon, and the continuous metal matrix in which the carbon and/or carbide are dispersed. | ||
Plastic | Any of various organic compounds produced by polymerization, capable of being molded, extruded, cast into various shapes and films, or drawn into filaments used as textile fibers. | ||
Stainless Steel | Stainless steel is chemical and corrosion resistant and can have relatively high pressure ratings. | ||
Search Logic: | All products with ANY of the selected attributes will be returned as matches. Leaving all boxes unchecked will not limit the search criteria for this question; products with all attribute options will be returned as matches. | ||