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组合相变材料换热管吸热器性能的数值分析 被引量:4

NUMERICAL ANALYSIS OF THE THERMAL PERFORMANCE OF A HEAT RECEIVER FILLED WITH MULTI-PHASE CHANGE MATERIALS
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摘要 吸热器是空间太阳能热动力发电系统关键部件之一。传统吸热器采用单一熔点的相变材料。该文提出了由不同溶点的相变材料组成的组合PCM换热管吸热器模型 ,计算了换热管最大温度、工质出口温度、各容器PCM熔化率、换热管总PCM熔化率等结果。并与单一PCM换热管吸热器进行了比较分析 ,说明了采用组合PCM换热管可以很好的提高吸热器的性能 ,对于减少工质温度波动、减少吸热器质量有重要的意义。 The heat receiver is one of the SDPS key parts. High temperature phase change material is used as thermal storage.Single phase change material was used in the traditional heat receiver. The heat receiver model that adopted multiple phase change materials with different melt points was established. Tube maximum temperature, gas exit temperature, liquid PCM fractions of all PCM units and the whole tube were calculated. The results were compared with that of single phase change material heat receiver. It's shown that the multiple phase change materials can improve the heat receiver thermal performance significantly. The results can be used in heat receiver design.
作者 侯欣宾 袁修干 崔海亭
机构地区 北京航空航天大学飞行器与应用力学系
出处 《太阳能学报》 EI CAS CSCD 北大核心 2002年第6期805-808,共4页 Acta Energiae Solaris Sinica
基金 国家自然科学基金资助项目 (5 98760 0 3)
关键词 相变材料 换热管 吸热器 太阳能发电 组合相变 solar dynamic power multiple PCM thermal analysis
分类号 TM615 [电气工程—电力系统及自动化] TB34 [一般工业技术—材料科学与工程]
  • 相关文献

参考文献7

  • 1Dennis Alexander. 2kW Solar dynamic ground test demonstration Project[R]. NASA-CR-198423. Tempe, Arizona: AlliedSignal Aerospace, 1997.
  • 2Solar dynamic power system development for space station Freedom[R]. NASA-RP-1310, N94-12807. Cleveland, Ohio: Lewis Research Center, 1993.
  • 3Strumpt H J,Avanessian V, Ghafourian R.Design analysis and containment canister life prediction for a Brayton engine solar receiver for space station[J]. Trans ASME J Solar Energy Engineering, 1994, 116:142-147.
  • 4Thomas W Kerslake, Mounir B. Ibrahim. Analysis of thermal energy storage material with change-of-phase volumetric effects[R]. NASA-TM102457. Cleveland, Ohio: Lewis Research Center, 1990.
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  • 6Hall Carsie 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.
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二级参考文献5

  • 1Dennis Alexander.2kWe Solar Dynamic Ground TestDemonstration Project[]..1997
  • 2V.R. Voller.An Overview of Numerical Methods forSolving Phase Change Problems[]..1997
  • 3Douglas Darling,Davie Namkoong J. and Raymond LeeSkarda.Modeling Void Growth and Movement withPhase Change in Thermal Energy Storage Canisters[]..1993
  • 4Hal J.Strumpt Murray G.Coombs. Solar ReceiverExperiment for the Space Station Freedom BraytonEngine. Trans[].ASME J Solar Energy Engineering.1990
  • 5D. Namknoong.Flight Experiment of Thermal Energy Storage[]..1989

共引文献13

同被引文献32

  • 1陆艳青,王章野,董雁冰,江照意,彭群生.城市建筑物红外特性四季变化及其成像研究[J].红外与毫米波学报,2002,21(5):377-381. 被引量:7
  • 2李本文,陈海耿,陶文铨.二维复杂系统内直接交换面积的计算[J].东北大学学报(自然科学版),1997,18(1):90-93. 被引量:2
  • 3Dennis Alexander. 2kWe solar dynamic ground test demonstration project[R]. NASA-CR-198423. Tempe, Arizona: AlliedSignal Aerospace,1997.
  • 4Solar dynamic power system development for space station Freedom[R].NASA-RP-1310, N94-12807. Cleveland, Ohio: Lewis Research Center, 1993.
  • 5Gong 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.
  • 6Strumpt 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 Engineerin,1994,116(2):142-147.
  • 7Hall 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(4): 133-144.
  • 8Solar dynamic power system development for space station Freedom [ R ]. NASA-RP-1310, N94-12807.Cleveland, Ohio: Lewis Research Center, 1993.
  • 9Richard K. Shaltens, Lee S. Mason. 800 Hours of operational experience from a 2 kWe Solar Dynamic System [R]. NASA TM-1999-208840, 1999.
  • 10Strumpt H J, Avanessian V, Ghafourian R. Design analysis and containment canister life prediction for a Brayton engine solar receiver for space station [ J ].Trans ASME J Solar Energy Engineering, 1994, 116:142-147.

引证文献4

二级引证文献22

太阳能学报
2002年 第6期

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