Browse > Article
http://dx.doi.org/10.9714/psac.2020.22.1.024

A new method fast measure cryogenic vessel heat leakage  

LI, Zheng-Qing (Lanzhou Institute of Physics)
LI, Xiao-Jin (Lanzhou Institute of Physics)
LIU, Mo (Beijing Institute of spacecraft Environment Engineering)
Publication Information
Progress in Superconductivity and Cryogenics / v.22, no.1, 2020 , pp. 24-28 More about this Journal
Abstract
Heat leakage is an important parameter to reflect heat insulated performance of cryogenic vessel. According to the current standard requirements, it needs to measure the daily evaporation rate to indicate heat leakage. The test needs-over 24h after cryogenic vessel in heat equilibrium as standard required, therefore test efficiency is poor and new efficient method is required to cut test time. First of all, the volume of instantaneous evaporated gas and heat leakage are calculated by the current standard corresponding to the maximum allowable daily evaporation rate of cryogenic vessel. Depending on the relationship between real daily evaporation rate and maximum allowable daily evaporation rate of cryogenic vessel, we designed a new test method based on the pressure changes over time in cryogenic vessel to determine whether its heat insulated performance meets requirements or not. Secondly, the heat transfer process was analyzed in measurement of cryogenic vessel, and the heat transfer equations of whole system were established. Finally, the test was completed in four hours; meanwhile the heat leakage and daily evaporation rate of cryogenic vessel are calculated basing on test data.
Keywords
cryogenic vessel; heat leakage; evaporation rate; measurement; fast;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
연도 인용수 순위
1 WANG JingXiong, YE Qing, QIU WeiPing, "Welded insulated cylinders ", Standards Press of China. Beijing, pp. 3-5, 2009.
2 BS ISO 21014, "Cryogenic vessels-cryogenic insulation performance", BSI publications. London, pp. 3-7. 2006.
3 Majumdar, A., Valenzuela, J., LeClair, A., Moder, J. "Numerical modeling of self-pressurization and pressure control by a thermodynamic vent system in a cryogenic tank", in Cryogenics, Vol.74, pp. 113-122, 2016.   DOI
4 S Gursu, S A Sherif, T N Veziroglu, "Analysis and optimization of thermal stratification and Self-Pressurization effects in liquid hydrogen storage systems-part 1: model development" in Journal of Energy Resources Technology, Vol.115, pp.223-225, 1993.
5 Q S Chen, J Wegrzyn, V Prasad. "Analysis of temperature and pressure changes in liquefied natural gas (LNG) cryogenic tanks" in Cryogenics, Vol.44, pp.701-709, 2004.   DOI
6 S Barsi, M Kassemi, "Investigation of tank pressurization and pressure control-part II: numerical modeling" in Journal of Thermal Science and Engineering Applications, Vol. 5, pp. 2-4, 2013.
7 Huang Yonghua, Chen Guobang, "Thermo physical of cryogenic fluid", National Defend Industry Press, Second Edition Beijing, pp.221-250, 2014.
8 R F Abdo, H T C Pedro, R N N Koury, "Performance evaluation of various cryogenic energy storage systems" in Energy, Vol. 90, pp. 1024-1032, 2015   DOI
9 V V Volkov, "Numerical modeling of the process of employing a tank with a cryogenic liquid" in Journal of Engineering Physics and Thermophysics, Vol.70, pp. 399-401, 1997.   DOI
10 D L Sun, J L Xu, L Wang, "Development of a vapor-liquid phase change model for volume-of-fluid method in fluent" in International Communications in Heat and Mass Transfer, Vol. 39, pp. 1101-1106, 2012.   DOI
11 C S Lin. "Pressure control analysis of cryogenic storage systems" in Journal of propulsion and power, Vol. 20, pp.480-482, 2004.   DOI
12 Z Liang, T Biben, P Keblinski, "Molecular simulation of steady-state evaporation and condensation: Validity of the Schrage relationships" in International Journal of Heat and Mass Transfer, Vol.114, pp.105-114, 2017.   DOI
13 Li Q F, Chen G B, Xie X M, "Experimental study of self-pressurizing transfer system for cryogenic liquid" in Proceedings of the Twentieth International Cryogenic Engineering Conference, pp.85-85, 2005.
14 Seok Jihoon, Kim Dongmin, Lee Changhyeong, Kim Manryeol, Choi Jeongdong, Kim Seokho, "Development and performance test of a liquid nitrogen circulation pump for HTS power cable" in , Progress in Superconductivity and Cryogenics, Vol.20. pp.2314-2319, 2018.
15 Seo Man-Su, Jeong Sang-Kwon, Jung Young-Suk, Ku, Dong-Hun, Ji Dong-Jin, "Experimental research of Pressure-Volume-Temperature mass gauging method using instantaneous analysis under cryogenic homogeneous condition" in Progress in Superconductivity and Cryogenics, pp.38-43, 2012.