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Volume 26 Issue 5
May  2000
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Journal of Beijing University of Aeronautics and Astronautics  > 2000  >  26(5): 565-568.
ZHAO Chao-yi, YUAN Xiu-gan, SUN Jin-biao, et al. Study of the Heat Transfer Characteristics of PhaseofChange Thermal Storage/Radiation Heat Sink[J]. Journal of Beijing University of Aeronautics and Astronautics, 2000, 26(5): 565-568. (in Chinese)
Citation: ZHAO Chao-yi, YUAN Xiu-gan, SUN Jin-biao, et al. Study of the Heat Transfer Characteristics of PhaseofChange Thermal Storage/Radiation Heat Sink[J]. Journal of Beijing University of Aeronautics and Astronautics, 2000, 26(5): 565-568. (in Chinese)
shu

Study of the Heat Transfer Characteristics of PhaseofChange Thermal Storage/Radiation Heat Sink

  • 1.

    Beijing University of Aeronautics and Astronautics,Dept. of Flight Vehicle Design and Applied Mechanics

  • 2. Institute of Space MedicoEngineering of China

  • Received Date: 14 Apr 1999
  • Publish Date: 31 May 2000
    Abstract
  • Performance studies of a phase change thermal storage/radiation heat sink for extravehicular activity have been undertaken by experimental investigation and numerical simulation. The test specimens of phase change thermal storage were designed and the cooling tests of phase change thermal storage were conducted. The mathematical model of phase change thermal storage with coupled convection and conduction boundary conditions has been established. The effects of convective heat transfer and voids are considered in this model. A computational program has been developed for evaluating the performance of phase change thermal storage. The reliability of the program has been verified based on the experimental results. This program is a useful analysis tool for the design and optimization for a phase change thermal storage.

     

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    • References(1)
  • [1]Wilson J L, Lawson B M. Investigation into venting and non-venting technologies for the space station freedom extravehicular activity life support system. SAE-901319, 1990. [2]Strumpf H J, Vulgner A A. Heat rejection system for an advanced extravehicular mobility unit portable life support system. SAE-927020, 1992. [3]Bayes S A, Trevino L A, Dinsmore C E. A nonventing cooling system for space environment extravehicular activity, using radiation and regenerable thermal storage. SAE-881063, 1988. [4]Thomas W K, Mounir B I. Analysis of thermal energy storage material with change-of-phase volumetric effects. NASA-TM-102457,1990. [5]William R H, Gorge C M. Performance of finned thermal capacitors. NASA TN D-7690, 1974. [6]Gane C R, Oliver A J, Soulsby D R,et al. Numerical solution of coupled conduction-convection problems using lumped-parameter methods. In:Lewis R W, Morgan K, Schrefler B A, eds. Numerical Methods in Heat Transfer. Chichester:John Wiley & Sons Ltd, 1983. 227~274. [7]Marshall R H. Natural convection effects in rectangular enclosures containing a phase change martial. In:Kreith F,Boehm R,Mithchell J,et al,eds. Thermal Storage and Heat Transfer in Solar Energy Systems. New York:American Society of Mechanical Engineers,1978. 61~69. [8]童景山编著. 流体的热物理性质[M]. 北京:中国石化出版社, 1996.262~272.
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