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Analysis of the Influence of Structure and Parameters of Axial Piston Pump on Flow Pulsation

Ruichuan Li, Qi Liu, Yi Cheng, Jilu Liu, Qiyou Sun, Yisheng Zhang, Yurong Chi

2022Processes17 citationsDOIOpen Access PDF

Abstract

In view of the working principle of a swashplate axial piston pump, a simulation model of the piston pump was built in AMESim and its output flow pulsation characteristics were simulated and analyzed. We mainly analyzed the influence of the speed of the prime mover, the swashplate angle, the diameter of the piston, and port plate structure on the flow pulsation of the piston pump. The result of this research shows that the port plate structure, the swashplate angle, and the speed of the prime mover have an important influence on the flow pulsation of the piston pump. In order to effectively reduce the flow pulsation generated by the piston pump and reduce the noise generated in the process of flow distribution, the opening of the pre-compression angle and misalignment angle of the port plate of the piston pump must be reduced appropriately and the swashplate angle and the rotation speed of the prime mover should be controlled within a certain range. The flow pulsation of the axial piston pump decreases with the increase of the piston number and the decrease in the misalignment angle. The research results provide a reference for reducing the flow pulsation of the axial piston pump.

Topics & Concepts

Piston pumpAxial piston pumpRadial piston pumpPiston (optics)Prime moverVariable displacement pumpReciprocating pumpProgressive cavity pumpFlow (mathematics)Rotational speedMechanicsPlunger pumpCylinderMechanical engineeringMaterials scienceEngineeringOpticsPhysicsWavefrontPlungerHydraulic and Pneumatic SystemsOil and Gas Production TechniquesCavitation Phenomena in Pumps