Pumps by working principles
Peristaltic and sinusoidal pumps use the simplest possible pumping principles
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Peristaltic and sinusoidal pumps use the simplest possible pumping principles
Peristaltic pumps have no valves, seals or glands, and the fluid contacts only the bore of the hose or tube. Simple to install, easy to use and quick to maintain, they are the world's fastest growing pump type.
Sinusoidal pumps use a single sinusoidal shaped rotor that creates four evenly sized chambers as it rotates. The chambers open and close drawing fluid through the pump, resulting in a smooth flow with virtually no pulsation.
Progressive cavity pumps cannot run dry, for more than a few seconds. They can self prime but if the fluid takes time to get to the pump then the rotor/stator must either be manually lubricated or the pump needs charging with duty fluid.
Piston pumps rely on ball valves, which must be protected with strainers and yet more valves: back-pressure valves, for example. Foot valves are needed to maintain prime. Valves are prone to clogging and breakdown.
Air-operated diaphragm pumps require a compressed air supply to drive them. If this does not already exist it can be very expensive to install. Even the best-maintained air supply systems are inefficient with at least 30% air leakage.
Learn more about the benefits of using our peristaltic pumps in your process.
Understand how sinusoidal pumps work with our guide.
Air-operate double diaphragm pumps are a well-established positive displacement pump technology.
Understand how mechanical diaphragm pumps work.
Understand how piston and plunger pumps work.
Understand how progressive cavity pumps work.
Centrifugal pumps are one of the most common machines in the industrial landscape.
Understand how rotary lobe pumps work.
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