Centrifugal pump worksA centrifugal

Centrifugal pump works
A centrifugal pump works by the conversion of the rotational kinetic energy, typicallyfrom an electric motor or turbine, to an increased static fluid pressure. This action is described byBernoulli's principle. The rotation of the pump impeller imparts kinetic energy to the fluid as it isdrawn in from the impeller eye (centre) and is forced outward through the impeller vanes to theperiphery. As the fluid exits the impeller, the fluid kinetic energy (velocity) is then converted to(static) pressure due to the change in area the fluid experiences in the volute section. Typicallythe volute shape of the pump casing (increasing in volume), or the diffuser vanes (which serve toslow the fluid, converting to kinetic energy in to flow work) are responsible for the energyconversion. The energy conversion results in an increased pressure on the downstream side of the pump, causing flow.Cavitations is the problems in the pump.It is defined as the phenomenon of formation of vapour bubbles of a flowing liquid in a region where the pressure of the liquid falls below itsvapour pressure. Cavitation is usually divided into two classes of behavior: inertial (or transient)cavitation and non-inertial cavitation. Inertial cavitation is the process where a void or bubble ina liquid rapidly collapses, producing a shock wave. Such cavitation often occurs in pumps,propellers, impellers, and in the vascular tissues of plants. Non-inertial cavitation is the processin which a bubble in a fluid is forced to oscillate in size or shape due to some form of energyinput, such as an acoustic field. Such cavitation is often employed in ultrasonic cleaning bathsand can also be observed in pumps, propellers etc.Due to the general complexity of flow through a centrifugal pump ,the actualperformance of the pump cannot be predicted on a completely theoretical basis .Actual pumpperformance is determine experimentally through test on the pump and the result are presented aspump performance curve .Performance characteristics for a given pump geometry and operatingspeed are usually given in the form of plots of head rise ,efficiency and power versus flow rate (commonly referred as capacity).This information is most helpful to the engineer responsible forincorporating pump into a given pipe flow systemcomplexity of flow through a centrifugal pump ,the actualperformance of the pump cannot be predicted on a completely theoretical basis .Actual pumpperformance is determine experimentally through test on the pump and the result are presented aspump performance curve .Performance characteristics for a given pump geometry and operatingspeed are usually given in the form of plots of head rise ,efficiency and power versus flow rate (commonly referred as capacity).This information is most helpful to the engineer responsible forincorporating pump into a given pipe flow system