A CFD study on design parameters acting in cavitation of positive displacement pump

Abstract: A CFD test case of a positive displacement reciprocating pump is presented to demonstrate the capability and benefits which numerical analysis may bring to designers in terms of information on fluid dynamic fields useful to optimize the geometry of the discussed device in all the different operating conditions; even in the worst operating conditions when cavitation appears. The paper discusses the role of design parameters such as the inlet valve shape, mass and spring preload in full cavitating conditions. Th… Show more

“…Continual advancements in computing technology mean computational fluid dynamics (CFD) is becoming a more powerful tool to study centrifugal pump performance. [5][6][7][8] At present, there are insufficient studies in the hydraulic performance in the high-power and highspeed pump field. The design of the high-speed rescue pump presented in this article refers to the submersible pump.…”

Effect of blade number matching of impeller and diffuser in high-speed rescue pump

“…Continual advancements in computing technology mean computational fluid dynamics (CFD) is becoming a more powerful tool to study centrifugal pump performance. [5][6][7][8] At present, there are insufficient studies in the hydraulic performance in the high-power and highspeed pump field. The design of the high-speed rescue pump presented in this article refers to the submersible pump.…”

Effect of blade number matching of impeller and diffuser in high-speed rescue pump