Numerical and experimental study of cavitation performance in sea water hydraulic axial piston pump

Abstract

Cavitation is one of the important elements influencing the performance of sea water hydraulic axial piston pump. To understand the working performance of sea water hydraulic axial piston pump under cavitation effects, a fully dynamic numerical model was developed in this article, which has taken into account the fluid compressibility effect, dynamic processes of gaseous, vaporous, pseudo-cavitation and cavitation damage, and the simulation was conducted through a three-dimensional computational fluid dynamics code PumpLinx. The cavitation characteristics of the pump were presented with a set of working conditions, as well as the cavitation damage power, dynamic gas volume fraction and vapor volume fraction inside the intake, piston and port plate chamber. A test rig was developed to validate the computational fluid dynamics simulations for the case of sea water hydraulic axial piston pump. Comparisons between the measured and simulated instantaneous discharge pressure, average flow as well as the vibration characteristics under different extents of cavitation by varying the inlet pressure and rotational speed of the pump were presented.