Experimental Study of Fluid Forces on Direct-Acting Relief Valves

Qingye Li, Chaoyong Zong, Fuwen Liu, Weihao Zhou, Xueguan Song
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Abstract

Safety valves as the last barrier of the pressure vessel and piping system ensure the stability of the whole system. However, there are specific situations where valves may not operate properly, which can have a significant impact on the safety of the entire system. The reason for this is a lack of understanding of the dynamic characteristics of valves, of which fluid forces are the most critical factor. In this paper, a high-precision test rig was built to test steady-state fluid forces of a direct-acting relief valve, where proportional-integral-derivative control (PID) control was applied in order to obtain more accurate multi-stage flow rates adjustments. In addition, a adjustment mechanism has been designed to obtain a more accurate valve opening. Based on this test rig, the steady-state fluid force at different openings and different flow rates are conducted, the relationship between fluid forces, flow rates and pressure drop of the valve is analyzed from the test data, which provide an in-depth understanding of the dynamic characteristics of the valves.
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直接作用溢流阀流体力的实验研究
安全阀作为压力容器和管道系统的最后一道屏障,保证了整个系统的稳定性。但是,在某些特定情况下,阀门可能无法正常工作,这可能对整个系统的安全产生重大影响。造成这种情况的原因是缺乏对阀门动态特性的了解,其中流体力是最关键的因素。本文搭建了高精度的直动式溢流阀稳态流体力测试平台,采用比例-积分-导数控制(PID)控制,以获得更精确的多级流量调节。此外,还设计了一个调节机构,以获得更精确的阀门开度。基于该试验台,进行了不同开度和不同流量下的稳态流体力测试,并从测试数据中分析了流体力、流量和阀压降之间的关系,为深入了解阀的动态特性提供了依据。
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