A peristaltic pump is a type of positive displacement pump used for pumping a variety of fluids. The fluid is contained within a flexible tube or hose fitted inside a circular casing and now linear designs have been brought to market within the last few years. A rotor with a number of rollers, shoes or lobes attached compresses the flexible hose or tube. As the rotor turns, the part of the tube under compression is pinched closed or “occludes” thus forcing the fluid to move through the tube. Additionally, as the tube opens to after the passing of the cam “restitution” fluid flow is induced to the pump. This process is called peristalsis (to get the name Peristaltic”) and is used in many biological systems. Typically, there will be two or more rollers, or shoes, occluding the tube, trapping between them a body of fluid. Peristaltic pumps may run continuously, or they may be calibrated for partial revolutions to deliver lower flow rates.
Are much larger in size and can handle higher pressures which can typically operate against up to 16 bar in continuous service, use shoes and have casings filled with lubricant to prevent abrasion of the exterior of the pump hose and aids in dissipation of heat. This class of pump is often called a “hose pump”.
Are designed for lower flow and lower pressure applications typically have dry casings and use rollers along with non-reinforced, tubing. This class of pump is referred to as a “tube pump” or “tubing pump”.
Peristaltic Pump Advantages:
The only point of contact the pump has with the fluid or chemical is the interior of the tube.
No valves or major seals to replace on a tube pump making them low maintenance.
They are able to handle slurries, viscous chemicals, shear sensitive polymers and other abrasive fluids.
Typical applications for peristaltic pumps include medicine, agriculture, food processing, chemical handling, pulp and paper plants, water and wastewater treatment plants and more.
Contact ESP to learn about our line of Granzow ( https://www.granzow.com/pumps/peristaltic) and how we can optimize your application efficiency and reliability.
credits: The Basics of a Peristaltic Pump Posted on May 18, 2016