首页|Pressure Pulse Response of High Temperature Molten Salt Check Valve Hit by Crystal Particles
Pressure Pulse Response of High Temperature Molten Salt Check Valve Hit by Crystal Particles
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In view of the problem that crystalline particles cause wall vibration at a low temperature,based on two-phase flow model,computational fluid dynamics is used to conduct the numerical simulation of internal flows when the valve openings are 20%,60%and 100%respectively.The molten salt flow may be changed under strict conditions and produce forced vibration of the inner parts of molten salt particle shock valve body.Euler two-phase flow model is used for different molten salt sizes to extract temporal pressure pulse information and conduct statistical data processing analysis.The influence of the molten salt crystallization of molten salt particles on the flow and pressure pulse strength is analyzed.The results show that the crystallization of molten salt has a serious impact on the vibration of the valve body,especially in the throttle rate.The valve oscillation caused by the pressure pulsation mostly occurs from the small opening rate.As the opening increases,the pressure pulse threshold and its change trend decrease.
molten salt valvenumerical simulationpressure pulsationtwo-phase flowcrystal frozen blocking
李树勋、沈恒云、刘斌才、胡迎港、马廷前
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School of Petrochemical Engineering,Lanzhou University of Technology,Lanzhou 730050,China
Machinery Industry Pump and Special Valve Engineering Research Center,Lanzhou 730050,China
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