Influence of silencing grooves configuration on performance in high-pressure vane pump

Abstract

The noise level and flow ripple are important parameters indicating the performance of high-pressure vane pump. This research aims at the influence of silencing grooves configuration on flow ripple and the fluid noise which mainly generate by pressure impact within the transition region in high-pressure vane pump. The pressure gradient was adopted to measure the rate of pressure impact, and the maximum of which determine the level of fluid noise. Diminish the Max. Of pressure gradient in transition region through optimize the configuration of silencing grooves is effective measure to reduce fluid noise. Secondly, the backfilling flow from discharge port to chamber through silencing grooves in transition region is the main influential factors of flow ripple in pump. Optimizing the configuration of silencing grooves can diminish the maximum of backfilling flow and the amplitude of the flow ripple. In this paper, aimed at the adoption of variable area silencing grooves and invariable area silencing groove and complex silencing grooves, the model of pre-loading process in single chamber is build. The simulation graphs of pressure gradient and discharge flow were gained. Finally, the conclusion that the adoption of complex silencing grooves can reduce fluid noise and flow ripple was obtained.