Litcius/Paper detail

Analysis and Optimization on U-shaped Damping Groove for Flow Ripple Reduction of Fixed Displacement Axial-Piston Pump

Haocen Hong, Bin Zhang, Min Yu, Qi Zhong, Huayong Yang

2020International Journal of Fluid Machinery and Systems13 citationsDOIOpen Access PDF

Abstract

The periodic flow ripples and pressure pulsations in a fixed-displacement axial-piston pump will directly impact its dynamic characteristics. To reduce the discharge flow ripples and pressure pulsations is one of the design challenges. An optimizing method is investigated herein using numerical models. The U-shaped damping groove at the discharge kidney groove is the primary optimized object. The numerical models of a fixed-displacement axial-piston pump with nine pistons are proposed and developed by MATLAB/Simulink. The effects of width radius, groove depth and groove length angle on flow dynamics are discussed. The optimization models based on the root-mean-square, the pulsation and the suction-extrusion ratio are proposed. As results show that the optimized structure can decrease the flow ripples from 31.08% to 20.33%.

Topics & Concepts

Groove (engineering)Materials sciencePositive displacement meterPiston (optics)MechanicsRadial piston pumpAxial piston pumpRADIUSDisplacement (psychology)Flow (mathematics)Piston pumpReduction (mathematics)Structural engineeringComputational fluid dynamicsEngineeringMechanical engineeringVariable displacement pumpGeometryPhysicsCylinderMathematicsOpticsComputer scienceComputer securityPsychotherapistWavefrontPsychologyMetallurgyHydraulic and Pneumatic SystemsCavitation Phenomena in PumpsRefrigeration and Air Conditioning Technologies