Abstract
This paper utilizes the AMESim software to construct a simulation model of a pilot-operated relief valve. The static and dynamic characteristics of the pilot-operated relief valve are theoretically and numerically analyzed, and the influence of structural parameters on its relief performance is explored. The simulation results effectively demonstrate the impact of various parameters on the relief characteristics of the pilot-operated relief valve, indicating that the orifice diameters of the main valve and the relief valve between 0.3 and 0.6 mm enable the pilot-operated relief valve to exhibit satisfactory relief performance. This paper provides a theoretical foundation for the design optimization of pilot-operated relief valves.
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References
Yuan X, Guo K (2015) Modelling and analysis for a pilot relief valve using CFD method and deformation theory of thin plates. Sci China Technol Sci 58(6):979–998
Dasgupta K, Watton J (2005) Dynamic analysis of proportional solenoid controlled piloted relief valve by bondgraph. Simul Model Pract Theory 13(1):21–38
Gad O, Gad O (2013) Comprehensive nonlinear modeling of a pilot operated relief valve. J Dyn Syst Meas Control 135(1):011011
Zeng Q, Tian M, Wan L (2020) Characteristic analysis of digital large flow emulsion relief valve. Math Probl Eng 2020
Gong Y, Zhou H, Yang H (2006) Properties of pilot-operated water hydraulic relief valve with different structure parameters. J Zhejiang Univ 4(5):869–873
Yin Y, Wang D, Li W (2023) Effect of the resonance suppression dam** on the stability of a cartridge pilot-operated relief valve. J Fluids Struct: 103948
Tang X, Zhang L (2019) Design and performance test of cryogenic pilot-operated pressure relief valve. Cryogenics 4:66–72
Gong Y, Zhou H, Yang H (2005) Study on cavitation resistive property of water hydraulic relief valve with different piston structure. Trans Chin Soc Agric Mach 36(8):50–54
Yang Z, Li H, Zhou L (2015) Simulation of self-excited vibration behavior of pilot valve core on pilot-operated pressure relief valve with strong vibration. J Huazhong Univ Sci Technol 43(4):58–63
Du H, Sun J, Huang J (2016) Performance study of piloted relief valve based on AMEsim. Machine Tool Hydraul 44(19):115–119
Yang J, Wang Q, Zhang Z, Liu Z, Xu S, Li G (2022) Dynamic modeling and analysis of the looped space tether transportation system based on ANCF. Int J Mech Syst Dyn 2:204–213
Wu G, Zhao G (2022) Parameter influence law analysis and optimal design of a dual mass flywheel. Int J Mech Syst Dyn 2:165–177
Rui X, Bestle D (2021) Reduced multibody system transfer matrix method using decoupled hinge equations. Int J Mech Syst Dyn 1:182–193
Rui X, Zhang J, Wang X, Rong B, He B, ** Z (2022) Multibody system transfer matrix method: the past, the present, and the future. Int J Mech Syst Dyn 2:3–26
Bai Z, Xu F, Zhao J (2021) Numerical and experimental study on dynamics of the planar mechanical system considering two revolute clearance joints. Int J Mech Syst Dyn 1:256–266
Lu H, Rui X, Ma Z (2022) Hybrid multibody system method for the dynamic analysis of an ultra-precision fly-cutting machine tool. Int J Mech Syst Dyn 2:290–307
Yin Y, Wang D, Fu J et al (2023) Effect of dynamic pressure feedback orifice on stability of cartridge-type hydraulic pilot-operated relief valve. Chin J Mech Eng 36:85
Kadar F, Stepan G (2023) Nonlinear dynamics and safety aspects of pressure relief valves. Nonlinear Dyn 111:12017–12032
Schröders S, Fidlin A (2021) Asymptotic analysis of self-excited and forced vibrations of a self-regulating pressure control valve. Nonlinear Dyn 103(3):2315–2327
Wu W, Qiu B, Tian G, Liao X, Wang T (2022) CFD-based cavitation research and structure optimization of relief valve for noise reduction. IEEE Access 10:66356–66373
Qu D, Zhou Y, Liu Y (2019) Steady flow force compensation and test research on electrohydraulic proportional relief valve. IEEE Access 7:48087–48097
Wu W, Tian G, Hao Q (2018) Analysis and optimization of abnormal opening of main port of relief valve under alternating pressure. J Huazhong Univ Sci Technol 46(7):78–83
Hao Q, Wu W, Liang X, Liu Z (2019) Effects of structure parameters on abnormal opening of pilot-operated relief valve under alternating pressure. IEEE Access 7:33932–33942
Zhou J, Zhang A, Mo X (2016) Modeling and simulation for pilot relief valve based on AMEsim. J Ordnance Equip Eng 2:101–104
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Huang, J., Zhao, X., Ding, W. (2024). Theoretical and Simulation Analysis of Pilot-Operated Relief Valve Characteristics Based on AMESim. In: Rui, X., Liu, C. (eds) Proceedings of the 2nd International Conference on Mechanical System Dynamics. ICMSD 2023. Lecture Notes in Mechanical Engineering. Springer, Singapore. https://doi.org/10.1007/978-981-99-8048-2_7
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DOI: https://doi.org/10.1007/978-981-99-8048-2_7
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