We will reply to your message within an hour.
More
Use these pumps in pipelines with limited clearance. Install directly in your pipeline for applications such as hot-water circulation and hydronic heating and cooling.
A high-horsepower motor handles four times the flow and twice the pressure of other inline circulation pumps. Install these pumps directly in your pipeline for applications such as hot-water circulation and hydronic heating and cooling.
Accommodate performance changes in your system with a three-speed switch that adjusts flow rate. Accommodate performance changes in your system with a three-speed switch that adjusts flow rate. Install these pumps directly in your pipeline for applications such as hot-water circulation and hydronic heating and cooling.
Eliminate seal wear and leakage—these pumps have magnets that turn the impeller for a long service life. Install them directly in your pipeline for applications such as hot-water circulation and hydronic heating and cooling.
These pumps have higher flow rate than other inline circulation pumps and are cooled by the liquid being pumped to extend the life of the motor. Install them directly in your pipeline for applications such as hot-water circulation and solar heating.
A detachable motor assembly allows you to leave these pumps inline while servicing or repairing the motor. Install these pumps directly in your pipeline for applications such as hot-water circulation and hydronic heating and cooling.
Eliminate seal wear and leakage with pumps that use magnets to turn the impeller. They’re often used with electroplating and photographic solutions.
A powerful motor provides twice the flow rate of other extended-life circulation pumps. The motor is totally enclosed fan-cooled (TEFC) for use in dusty, dirty, and damp environments. Magnets turn the impeller to eliminate seal wear and leakage for a long service life. These pumps are often used with electroplating and photographic solutions.
These pumps have a totally enclosed fan-cooled (TEFC) motor for use in dusty, dirty, and damp environments. The impeller is turned with magnets to eliminate seal wear and leakage for a long service life.
Propel liquid higher and farther than standard circulation pumps. They're commonly used with chillers, heat exchangers, and boiler feed systems.
Also known as booster pumps, these have a multistage impeller that propels water about two times higher and farther than standard circulation pumps. Use them in applications such as water delivery, irrigation, and pressure washing.
These pumps can be used to move water and lubricating oil in boiler feed systems, cooling towers, and heat exchangers.
Move water and coolants, such as ethylene glycol, in boiler feed systems, cooling towers, and heat exchangers.
The motor is totally enclosed fan-cooled (TEFC) for use in dusty, dirty, and damp environments. Use these pumps to move water and lubricating oil in boiler feed systems, cooling towers, and heat exchangers
Use less electricity to achieve the same flow rates as other circulation pumps.
Propel liquid higher and farther than standard high-efficiency circulation pumps. These pumps use less electricity to achieve the same flow rates as other circulation pumps.
Instead of a fan-cooled motor, these pumps have an integrated motor that's cooled by the liquid being pumped for virtually silent operation and a long service life. Also known as canned motor pumps, they're commonly used in chiller systems and aquariums.
These pumps have high flow rates for irrigation and landscaping.
A sealless construction means these pumps have few moving parts that can fail and shorten service life. The intake can be completely submerged in liquid.
The durable motor and impeller can handle dirty coolant and machine lubricants with solids up to 1/4" diameter. These pumps have an intake that can be completely submerged in liquid.
Commonly used in machine tool coolant tanks, these pumps have an intake that can be completely submerged in liquid.
The motor is totally enclosed fan-cooled (TEFC) for use in dusty, dirty, and damp environments. Install these pumps up to 20 ft. above your liquid source to drain underground tanks and process wastewater.
A powerful motor provides twice the flow rate of other self-priming circulation pumps. It is totally enclosed fan-cooled (TEFC) for use in dusty, dirty, and damp environments. Install these pumps up to 20 ft. above your liquid source to drain underground tanks and process wastewater.
Drain underground tanks and process wastewater with pumps that can be installed up to 20 ft. above your liquid source.
Use when space is limited—these pumps connect to a pipe coming from your tank so you can place the pump in another location.
These pumps have the best chemical resistance of all our circulation pumps. Instead of a shaft seal, they use magnets to turn the impeller, reducing wear and leakage.
A 316 stainless steel housing sealed with fluoroelastomer resists mild chemicals and acids, such as coolant, oil, and phosphoric acid.
Self-priming up to 6 ft., these pumps have a stainless steel housing sealed with PTFE to resist chemicals such as ammonia and detergents as well as harsh solvents including methyl ethyl ketone (MEK).
Match your pump’s manufacturer and model number to choose the right replacement impeller.
Commonly used in food, beverage, and dairy processing, these pumps are 3-A certified to meet sanitary design standards.
Transfer hot oil up to 650° F in demanding applications such as plastic mold injecting and chemical processing.
Pump fuel and flammable liquids, such as isopropyl alcohol and xylene. These pumps have an explosion-proof motor that is rated for environments where hazardous material is present.
Extend the service life of your pump by mounting it to a baseplate. These heavy duty plates minimize vibration and raise the pump off the floor, preventing damage to the motor from flooding or spills.
Also known as flexible impeller pumps, these create a suction force that can draw liquid upward to fill the pump chamber when your liquid source is below the pump.
Use these pumps to move lubricating oil such as hydraulic and motor oil. Also known as flexible impeller pumps, they create a suction force that can draw liquid upward to fill the pump chamber when your liquid source is below the pump.
Also known as centrifugal pumps, these send a high flow of liquid through a pipeline or a closed circuit. They're often used in heating and cooling applications, as well as for tank filling and emptying.