Everything about Rotary Vane Pump totally explained
A
rotary vane pump is a positive-displacement
pump that consists of vanes mounted to a
rotor that rotates inside of a cavity. In some cases these vanes can be variable length and/or tensioned to maintain contact with the walls as the pump rotates. It was invented by Charles C. Barnes of
Sackville, New Brunswick who patented it on June 16, 1874.
Types
The most simple vane pump is a circular rotor rotating inside of a larger circular cavity. The centers of these two circles are offset, causing eccentricity. Vanes are allowed to slide into and out of the rotor and seal on all edges, creating vane chambers that do the pumping work. On the intake side of the pump, the vane chambers are increasing in volume. These increasing volume vane chambers are filled with fluid forced in by the inlet pressure. Often this inlet pressure is nothing more than pressure from the atmosphere. On the discharge side of the pump, the vane chambers are decreasing in volume, forcing fluid out of the pump. The action of the vane drives out the same volume of fluid with each rotation. Multistage rotary vane vacuum pumps can attain pressures as low as 10
-3 mbar (0.1
Pa).
Uses
Common uses of vane pumps include high pressure
hydraulic pumps and automotive uses including,
supercharging,
power steering and
automatic transmission pumps. Pumps for mid-range pressures include applications such as carbonators for fountain soft drink dispensers and espresso coffee machines. They are also often used as
vacuum pumps for providing braking assistance (through a braking
booster) in
diesel-engined vehicles. Furthermore, vane pumps can be used in low-pressure gas applications such as
secondary air injection for auto exhaust emission control, and in vacuum applications including evacuating refrigerant lines in
air conditioners, and laboratory freeze dryers, extensively in semiconductor low pressure chemical vapor deposition systems, and
vacuum experiments in physics. In this application the pumped gas and the oil are mixed within the pump, but must be separated externally. Therefore the inlet and the outlet have a large chamber – maybe with swirl – where the oil drops fall out of the gas. The inlet has a
venetian blind cooled by the room air (the pump is usually 40 K hotter) to condense cracked pumping oil and water, and let it drop back into the inlet. It eventually exits through the outlet.
Further Information
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