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太阳能热气流发电系统的传热与流动数值分析 被引量:8

NUMERICAL ANALYSIS OF HEAT TRANSFER AND FLOW IN THE SOLAR CHIMNEY POWER GENERATION SYSTEM
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摘要 建立了集热棚、烟囱以及多孔蓄热层的太阳能热气流发电系统传热与流动数学模型,分析了太阳辐射对蓄热介质的蓄热特性的影响。计算结果表明,在太阳辐射为200~800W/m^2的范围内,随着太阳辐射的增强,蓄热介质的蓄热比例先减小后增大;烟囱底部的最小相对压力显著减小,流动速度增大;系统内空气的温升增大,蓄热介质表面的温度也显著升高。 Mathematical models to describe the mechanism of heat transfer and flow in the collector, chimney and the energy storage medium of the solar chimney power generation system were established, and the effect of the solar insolation on the heat storage characteristic of the energy storage medium was analyzed. The numerical simulation results show that the heat storage radio of the energy storage medium decreases firstly and then increases alone with increase of the solar radiation from 200 W/m^2 and 800W/m^2 ;The minimum relative static pressure at the bottom of the chimney decreases significantly while the flow speed increases, the temperature difference between the system and the environment and the temperature of the surface of the enrgy storage medium increase notablely.
作者 明廷臻 刘伟 熊宴斌 管绪虎
机构地区 华中科技大学能源与动力工程学院
出处 《太阳能学报》 EI CAS CSCD 北大核心 2008年第4期433-439,共7页 Acta Energiae Solaris Sinica
基金 教育部重点研究基金(104127)
关键词 太阳能热气流发电系统 集热棚 蓄热层 烟囱 solar chimney power generation system collector energy storage medium chimney
分类号 TK515 [动力工程及工程热物理—热能工程]
作者简介 通讯作者:明廷臻(1976-),男,博士研究生、讲师,主要从事太阳能发电及强化传热技术研究。mtzhen@163.com
  • 相关文献

参考文献14

  • 1Haaf H, Friedrich K, Mayer G, et al. Solar chimneys[ J].International Journal of Solar Energ, 1983,2: 3-20.
  • 2Haaf H, Friedrich K, Mayer G, et al. Solar chimneys[J]. International Journal of Solar Energy, 1984,2: 141-161.
  • 3Bemardes M A D S, Valle R M. Numerical analysis of natural laminar convection in a radial solar heater[J]. International Journal of Thermal Science, 1999,38:42-50.
  • 4Gannon A J, Backstrom T W. Solar chimney cycle analysis with system loss and solar collector performance[ J]. Journal of Solar Energy Engineering, 2000, 122: 133-137.
  • 5Lodhi M A K. Application of helio-aero-gravity concept in producing energy and suppressing pollution[ J]. Energy Conversion and Management, 1999, 40: 407-421.
  • 6Padki M M, Sherif S A. On a simple analytical model for solar chimneys [ J]. International Journal of Energy Research, 1999, 23: 345-349.
  • 7Pasumarthi N, Sherif S A. Experimental and theoretical performance of a demonstration solar chimney model-part Ⅰ : mathematical model development[ J ]. International Journal of Energy Research, 1998,22: 277-288.
  • 8Pasumarthi N, Sherif S A. Experimental and theoretical performance of a demonstration solar chimney model-Part Ⅱ : experimental and theoretical results and economic analysis [ J ]. International Journal of Energy Research, 1998, 22: 443-461
  • 9Pastohr H, Kornadt O, Gurlebeck K. Numerical and analytical calculations of the temperature and flow field in the upwind power plant [ J ]. International Journal of Energy Research, 2004, 28: 495-510.
  • 10Schlaich J, Weinrebe G. Design of commercial solar updraft tower systems-utilization of solar induced convective flows for power generation [J ]. Journal of Solar Energy Engineering, 2005, 127: 117-124.

二级参考文献5

  • 1Haaf H,Friedrich K,Mayer G,et al.Solar Chimneys.International Journal of Solar Energy,1983,2(1):3-20
  • 2Lodhi MAK.Application of Helio-Aero-Gravity Concept in Producing Energy and Suppressing Pollution.Energy Conversion & Management.1999,40(4):407-421
  • 3Gannon A J,Backstrom TWV.Solar Chimney Cycle Analysis with System Loss and Solar Collector Performance.Journal of Solar Energy Engineering,2000,122(3):133-137
  • 4Padki MM,Sherif SA.On a Simple Analytical Model for Solar Chimneys.International Journal of Energy Research,1999,23(4):345-349
  • 5Pastohr H,Kornadt O,Gurlebeck K.Numerical and Analytical Calculations of the Temperature and Flow Field in the Upwind Power Plant.International Journal of Energy Research,2004,28(6):495-510

共引文献13

同被引文献71

引证文献8

二级引证文献12

太阳能学报
2008年 第4期

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