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Volume 30 Issue 01
Jan.  2004
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Journal of Beijing University of Aeronautics and Astronautics  > 2004  >  30(01): 43-46.
Cui Haiting, Yuan Xiugan, Xing Yuminget al. Effect of operational parameter on the heat transfer in a heat receiver[J]. Journal of Beijing University of Aeronautics and Astronautics, 2004, 30(01): 43-46. (in Chinese)
Citation: Cui Haiting, Yuan Xiugan, Xing Yuminget al. Effect of operational parameter on the heat transfer in a heat receiver[J]. Journal of Beijing University of Aeronautics and Astronautics, 2004, 30(01): 43-46. (in Chinese)
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Effect of operational parameter on the heat transfer in a heat receiver

  • School of Aeronautics Science and Technology, Beijing University of Aeronautics and Astronautics, Beijing 100083, China

  • Received Date: 17 Sep 2002
  • Publish Date: 31 Jan 2004
    Abstract
  • It is possible to solve some problems using the three different multiple phase change material to replace single kind of high-temperature phase change material in heat receiver for NASA 2 kW solar dynamic power system. The heat receiver model was established. The corresponding numerical methods were described. Tube maximum temperature, gas exit temperature and liquid phase change material fractions were calculated based on working parameter such as gas inlet temperature, receiver heat input and gas mass flow rate. Results indicate that parametric changes in receiver gas inlet temperature and receiver heat input effects higher sensitivity to changes in receiver gas exit temperatures. Selecting these parameter is very important to improve the heat receiver thermal performance.

     

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    • References(1)
  • [1] Alexander D. 2 kW solar dynamic ground test demonstration project. NASA-CR-198423, Tempe,Arizona:AlliedSignal Aerospace,1997 [2] Bartos Linda J, Baunscheidel Edward P, Corrigan Robart D, et al. Solar dynamic power system development for space station freedom. NASA-RP-1310, N94-12807, Cleveland,Ohio:Lewis Research Center,1993 [3] Strumpt H J, Avanessian V, Ghafourian R.Design analysis and containment canister life prediction for a Brayton engine solar receiver for space station[J].Journal of Solar Energy Engineering,1994,116(2):142~147 [4] Hall C A, Glakpe E K, Cannon J N, et al. Thermodynamic analysis of space solar dynamic heat receivers with cyclic phase change[J]. ASME, J Solar Energy Engineering,1999,121:133~144 [5] Gong Z X, Mjumdar A S. A new solar receiver thermal store for space-based activities using multiple composite phase-change materials[J].Journal of Solar Energy Engineering, 1995,117(3):215~220 [6] 崔海亭,袁修干, 侯欣宾. 组合式相变材料吸热器热性能研究[J].中国电机工程学报,2003,24(5):166~169 Cui Haiting, Yuan Xiugan, Hou Xinbin. Analysis of thermal performance for a combined heat receiver of multi-phase change materials[J]. Proceedings of the Chinese Society of Electrical Engineering, 2003,24( 5):166~169(in Chinese)
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