Pressure compensator design, simulation and performance evaluation of a variable displacement swash plate type axial piston pump
Abstract
Keywords
References
- [1] Wei J, Guo K, Fang J, et al. Nonlinear supply pressure control for a variable displacement axial piston pump. Proc IMechE Part I: J. Systems Control and Engineering 2015; 229 (7): 614-624.
- [2] Daher N and Ivantysynova M. Energy analysis of an original steering technology that saves fuel and boosts efficiency. Energy Conversion and Management 2014; 86: 1059–1068.
- [3] Kemmetmuller W, Fuchshumer F and Kugi A. Nonlinear pressure control of self-supplied variable displacement axial piston pumps. Control Eng Pract 2010; 18: 84–93.
- [4] Norhirni MZ, Hamdi M, et al. Load and Stress Analysis for the Swash Plate of an Axial Piston Pump/Motor. ASME J. Dyn Syst Meas Contrl 2011; 133:064505:1-10.
- [5] Mandal NP, Saha R, Mookherjee S, Sanyal D. Pressure compensator design for an axial piston pump. T ASME J. Dyn Syst Meas Contr. 2014; 136 (2) 021001, DS-12-1356.
- [6] Manring, N. D. Valve-plate design for an axial piston pump operating at low displacements. ASME J. Mech. Des. 2003; V200, 200–205.
- [7] Manring, N. D. The discharge flow ripple of an axial-piston swash-plate type hydrostatic pump. ASME J. Dyn. Syst. Meas. Contr. 2000; 122, 263–268.
- [8] Ericson, L., March. Swash plate oscillations due to piston forces in variable in-line pumps. In The 9th International Fluid Power Conference; 9. IFK, 2014.
Details
Primary Language
English
Subjects
Engineering
Journal Section
Research Article
Authors
Nitesh Mondal
This is me
0000-0001-9120-6669
India
Rana Saha
This is me
0000-0001-7751-3363
India
Dipankar Sanyal
This is me
0000-0002-0996-0839
India
Publication Date
June 2, 2021
Submission Date
February 14, 2021
Acceptance Date
-
Published in Issue
Year 2021 Volume: 39 Number: 2