ANALYSIS ON THERMAL DESIGN CONCERN OF VAPOR COOLED SHIELD FOR CRYOGENIC TANKS

被引:0
|
作者
Jiang, Wenbing [1 ]
Zuo, Zhongqi [1 ]
Huang, Yonghua [1 ]
Sun, Peijie [2 ]
Li, Peng [2 ]
机构
[1] Shanghai Jiao Tong Univ, Inst Refrigerat & Cryogen, Shanghai, Peoples R China
[2] Shanghai Inst Aerosp Syst Engn, Shanghai, Peoples R China
来源
PROCEEDINGS OF THE ASME SUMMER HEAT TRANSFER CONFERENCE, 2019 | 2019年
基金
中国国家自然科学基金;
关键词
vapor cooled shield (VCS); cryogenic tank; cryogenic propellant; LIQUID-HYDROGEN;
D O I
暂无
中图分类号
O414.1 [热力学];
学科分类号
摘要
In the long run, storage of cryogenic propellants on orbit is one of the most crucial technologies for future space exploration. Vapor cooled shield (VCS) has been considered as an effective tool to intercept heat leakage from the environment into the cryogenic tanks. In addition to that, reduce or even eliminate propellant boil-off This scrutiny ascertains a 3D model to investigate the temperature distribution on VCS, and also conforms to the fact of temperature uniformity assumption in literature. The relationship amid the temperature distribution on VCS, the shield wall thickness, and the vented vapor's mass flow rate is analyzed for series-type VCS and parallel-type VCS to clarify the existing temperature gradient on VCS and the way it influences the MLI's insulation performance. The outcomes of the study could act as a beneficial tool for the thermal design of cryogenic VCS.
引用
收藏
页数:6
相关论文
共 50 条
  • [1] Design and Analysis of a Vapor Cooled Shield of Cryogenic Propellants Storage System
    SUN Peijie
    JIANG Wenbing
    HUANG Yonghua
    LI Peng
    XU Anyi
    BAO Yiying
    BU Shaohua
    [J]. 上海航天(中英文), 2020, (S1) : 25 - 33
  • [2] Design and Analysis of a Vapor Cooled Shield of Cryogenic Propellants Storage System
    SUN Peijie
    JIANG Wenbing
    HUANG Yonghua
    LI Peng
    XU Anyi
    BAO Yiying
    BU Shaohua
    [J]. 上海航天(中英文)., 2020, 37(S1) (中英文) - 33
  • [3] Heat Transfer Analysis of Cryogenic Tank Covered With Vapor-cooled Shield
    Liu, Zhan
    Li, Yan-Zhong
    Gao, Peng-Hui
    [J]. Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics, 2019, 40 (03): : 629 - 634
  • [4] THERMAL ANALYSIS OF SUN SHIELD AND MULTI-LAYER COMPOSITE ADIABATIC STRUCTURE FOR CRYOGENIC TANKS
    Song, Jiazheng
    Huang, Yiyong
    Wu, Zongyu
    [J]. FOURTH IAA CONFERENCE ON DYNAMICS AND CONTROL OF SPACE SYSTEMS 2018, PTS I-III, 2018, 165 : 2283 - 2298
  • [5] Experimental investigation on combination of vapor cooled shield (VCS) and multilayer insulation (MLI) for cryogenic application
    Jiang, W. B.
    Yang, Z. H.
    Zuo, Z. Q.
    Sun, P. J.
    Li, P.
    Huang, Y. H.
    [J]. ADVANCES IN CRYOGENIC ENGINEERING, 2020, 755
  • [6] Performance analysis of vapor-cooled shield insulation integrated with para-ortho hydrogen conversion for liquid hydrogen tanks
    Shi, Chaoyue
    Zhu, Shaolong
    Wan, Chuancong
    Bao, Shiran
    Zhi, Xiaoqin
    Qiu, Limin
    Wang, Kai
    [J]. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2023, 48 (08) : 3078 - 3090
  • [7] Force cooled quench tanks for the ITER cryogenic system
    Kouzmenko, G.
    Simon, M.
    Saulquin, S.
    Buskop, J.
    Voigt, T.
    Monneret, E.
    Grillot, D.
    Cursan, M.
    Pichot, D.
    Demar, G.
    [J]. ADVANCES IN CRYOGENIC ENGINEERING, 2017, 278
  • [8] Coupling optimization of composite insulation and vapor-cooled shield for on-orbit cryogenic storage tank
    Jiang, W. B.
    Zuo, Z. Q.
    Huang, Y. H.
    Wang, B.
    Sun, P. J.
    Li, P.
    [J]. CRYOGENICS, 2018, 96 : 90 - 98
  • [9] MULTIPLE VAPOR COOLED SHIELD POSITION TOLERANCES
    ATHERTON, DL
    PRENTISS, PO
    [J]. CRYOGENICS, 1973, 13 (05) : 274 - 275
  • [10] AN ENHANCED THERMAL MODEL FOR CRYOGENIC TANKS
    Sabry, Mohamed-Nabil
    Shatla, Mahmoud Nagi
    [J]. 2008 SECOND INTERNATIONAL CONFERENCE ON THERMAL ISSUES IN EMERGING TECHNOLOGIES - THEORY AND APPLICATION (THETA), 2008, : 341 - 350
12345