Analysis of water hammer characteristics of liquid fuel transmission pipeline under complex working conditions with multiple valves
LIU Jianying1,2, CHEN Huilong1*
1. School of Energy and Power Engineering, Jiangsu University, Zhenjiang, Jiangsu 212013, China; 2. Shanghai Institute of Space Propulsion, Shanghai 200112, China
Abstract:The multi-valve liquid fuel delivery pipeline system is a relatively complex branched pipeline network, working with a large number of end valves in different combinations. The working conditions are relatively complex, and water hammer and its mutual influence problems often occur in the pipeline network, which seriously affects the working performance and reliability of the pipeline system. In response to the problem of excessive mutual influence of water hammer pressures in different valve branches during the operation of a multi-valve fuel delivery pipeline system, taking into account the constraints of fast response requirements, lightweight, and compact structure of the system, the water hammer characteristics of the pipeline under complex working conditions of multiple valves were studied through experiments. The relationship between the changes in water hammer pressure in the pipeline and the pulse working mode of the valve, as well as the combination of valves working simultaneously, were researched. The relationship between water hammer pressure and the time interval between valve opening and closing, as well as the relationship between valve control cycle and the number of valves working simultaneously had also been deeply studied. Based on this, a water hammer suppression measure based on multi-valve working mode adjustment was proposed. The research results indicate that it is feasible to reduce water hammer pressure in the fuel delivery pipeline without increasing system complexity and weight.
刘建盈,陈汇龙*. 多阀门燃料输送系统复杂工况水击特性分析[J]. 排灌机械工程学报, 2024, 42(1): 43-48.
LIU Jianying,CHEN Huilong*. Analysis of water hammer characteristics of liquid fuel transmission pipeline under complex working conditions with multiple valves. Journal of Drainage and Irrigation Machinery Engin, 2024, 42(1): 43-48.