Quality Improvement of a Safety Valve with the Use of Numerical and Experimental Studies

Quality Production Improvement - QPI Pub Date : 2019-07-01 DOI:10.2478/cqpi-2019-0051

G. Filo, M. Domagala, P. Lempa, J. Fabis-Domagala, D. Kwiatkowski, H. Momeni

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引用次数: 1

Abstract

This article presents results of numerical modelling, simulation and test bench experiments of a hydraulic direct-acting relief valve was used as a safety valve. The analyzed safety valve was placed in a system consisting of a fixed-speed pump, a control valve, a hydraulic cylinder as an actuator and a second pressure valve in the load line used as a payload generator for the cylinder. In the first step mathematical model of the system was formulated in the form of a system of ordinary differential equations. Next, simulation model was created in Matlab/Simulink. Simulations were carried out for different values of the actuator payload. The obtained results include time series of pressure, flow rate and displacement of the actuator piston. In order to confirm simulation results, a test bench was built and series of experiments were carried out. High compliance of simulation and laboratory results was obtained. It was confirmed that the proposed solution with the relief valve used as a safety valve fulfills its task of protecting the hydraulic system from excessive pressure increase.

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用数值和实验研究方法改进安全阀的质量

本文介绍了采用液压直接作用溢流阀作为安全阀的数值模拟、仿真和试验台试验结果。所分析的安全阀被放置在一个系统中，该系统由一个定速泵、一个控制阀、一个作为执行器的液压缸和一个作为气缸有效载荷发生器的负载线上的第二个压力阀组成。第一步，用常微分方程组的形式建立了系统的数学模型。其次，在Matlab/Simulink中建立仿真模型。对不同的执行器载荷值进行了仿真。所得结果包括执行器活塞的压力、流量和位移的时间序列。为了验证仿真结果，搭建了试验台并进行了一系列实验。仿真结果与实验结果具有较高的符合性。结果表明，采用溢流阀作为安全阀的解决方案能够很好地解决液压系统压力过大的问题。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Quality Production Improvement - QPI

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