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基于场论的槽式太阳能集热管热流密度模拟 被引量:2

Heat flux simulation of solar trough collectors based on field theory
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摘要 文章运用场论的方法并结合COMSOL软件模拟了槽式太阳能集热管的聚光特性,结合受照面理论,简化了光线从光源传播到聚光器的过程,极大地节省了计算资源。同时将模拟结果与Jeter的模拟结果以及蒙特卡洛光线追踪法的模拟结果进行了对比分析。分析结果表明,使用场论方法的模拟结果优于蒙特卡洛光线追踪法的模拟结果,使用场论方法的模拟结果与Jeter的模拟结果更为接近。文章还对LS-3型槽式太阳能集热管在不同边界角θrim下的聚光特性进行了模拟与分析。模拟与分析的结果表明,边界角θ_(rim)越大,LS-3型集热管外热流密度分布越均匀,该集热管外热流密度峰值越小。 In this paper, the heat flux of solar trough collectors has been simulated based on field theory and COMSOL. Combined with the Illuminated Surface Theory, the process of the ray transmission from the light source to the concentrator has been simplified which greatly saved computing resources. In addition, the simulation results have been compared with Jeter's result and the result of the Monte Carlo ray tracing method. The comparison result shows that the simulation result of using field theory is better than the result of using Monte Carlo ray tracing method,which is more close to Jeter's result. After that,the heat flux of LS-3 solar trough collectors has been simulated with different rim angle and the result shows that with the increase of rim angle the heat flux distribution became more uniform and the peak value went smaller.
作者 陈嘉汝 许昌 王沛 郭苏 赵亮 王湘艳
机构地区 河海大学能源与电气学院 河海大学宿迁研究院 中国电力科学研究院
出处 《可再生能源》 CAS 北大核心 2016年第10期1430-1434,共5页 Renewable Energy Resources
基金 国家电网公司科技项目(NY71-15-042) 国家自然科学基金项目(51509076) 江苏省自然科学基金项目(BK20150816) 江苏省自然科学基金项目(BK20131369) 宿迁市工业支撑计划项目(H201419)
关键词 抛物槽式系统 聚光特性 场论 边缘角 solar trough collectors heat flux field theory rim angle
分类号 TK513 [动力工程及工程热物理—热能工程] TM615 [电气工程—电力系统及自动化]
  • 相关文献

参考文献15

  • 1D L Evans.On the performance of cylindrical parabolic solar concentrators with flat absorbers[J].Solar Energy,1977,19:379-385.
  • 2S M Jeter.Calculation of the concentrated flux density distribution in parabolic trough collectors by a semifinite formulation[J].Solar Energy,1986,37(5):335-345.
  • 3肖杰,何雅玲,程泽东,陶于兵,徐荣吉.槽式太阳能集热器集热性能分析[J].工程热物理学报,2009,30(5):729-733. 被引量:33
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二级参考文献17

  • 1D L Evans. On the Performance of Cylindrical Parabolic Solar Concentrators with Flat Absorbers. Solar Energy, 1977, 19:379-385.
  • 2S M Jeter. Calculation of the Concentrated Flux Density Distribution in Parabolic Trough Collectors by a Semifinite Formulaiton. Solar Energy, 1986, 37(5): 335-345.
  • 3M F Modest. Radiative Heat Transfer. Second ed. New York: Academic Press, 2003.
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  • 6Garcia P, FerriereA, Jacques Bezian J.Codes for solar flux calculation dedicated to central receiver system applications: A comparative review[J]. Solar Energy, 2008, 82(3): 189 - 197.
  • 7Ho C K. Software and codes for analysis of concentrating solar power technologies[R]. Sandia National Laboratories SAND2008- 8053, 2008.
  • 8NREL. Parabolic trough technology models and software tools[EB/OL]. http://www.nrel.gov/csp/troughnet/models_tools. html#soltrace.
  • 9Spencer G H, Murty M V R K. General ray-tracing procedure [J]. Journal of the Optical Society of America, 1962, 52(6): 672 - 678.
  • 10Wendelin T. SolTRACE: a new optical modeling tool for concen- trating solar optics[A]. American Society of Mechanical Engineers. Proceedings of the ISEC 2003: International Solar Energy Conference [C], US: New York, 2003:253 - 260.

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