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槽式太阳能直接产生蒸汽系统(DSG)集热管传热特性研究 被引量:2

STUDY ON HEAT TRANSFER IN THE ABSORBER TUBE OF DIRECT SOLAR STEAM GENERATION
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摘要 以DSG(direct steam generation)集热器的集热管为研究对象,利用数值模拟研究集热管内工质3种流态下周向温度分布及太阳辐射强度、工质流速、环境风速、环境温度、金属管材质等对金属管周向温度的影响。研究表明:集热金属管材质对周向温度分布影响较大,将铁材改为铜材时,过热蒸汽段最高温度从346.0℃降为338.0℃,最大温差从26℃降至约10℃;太阳辐射强度对壁面温度的影响较大,随着辐射强度的提高,壁温升高;工质流速对金属集热管壁面温度有一定的影响,当流速由0.8 kg/s提高至1.2 kg/s时,金属管周向最大温差由11℃下降至8℃,光斑处的最高壁温由321.5℃下降至318.7℃;环境风速和温度对周向温度分布的影响不大。 This paper uses numerical simulation to study the circumferential temperature distribution of working substance in collector tube under three flow patterns. It also studies the influences on the metal circumferential temperature by solar radiation intensity, working substance flow rate, environmental wind speed, environmental temperature and metal material. The research shows that:the metal material has much effect on the circumferential temperature distribution. If the material is switched from iron to copper, the maximum temperature under saturated steam will decrease from 346.0 ℃ to 338.0 ℃ while the maximum temperature difference will decrease from 26 ℃ to 10 ℃ ; When the radiation enhanced, the wall temperature increases respectively; the working substance flow rate also has some certain effect on the metal temperature. When the flow rate is increased from 0.8 kg/s to 1.2 kg/s, the metal maximum temperature difference will decrease from 11 ℃ to 8 ℃ while the light spot's maximum metal temperature will decrease from 321.5 ℃ to 318.7 ℃.
作者 李扬 葛仕福 葛剑 闫伟伟
机构地区 东南大学能源热转换及其过程测控教育部重点实验室
出处 《太阳能学报》 EI CAS CSCD 北大核心 2014年第9期1653-1657,共5页 Acta Energiae Solaris Sinica
关键词 槽式太阳能直接产生蒸汽集热器(DSG) 流型 换热系数 周向温度 DSG flow pattern heat transfer coefficient circ-umferential temperature
分类号 TK514 [动力工程及工程热物理—热能工程]
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参考文献9

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二级参考文献31

  • 1M Eck, WD Steinmann. Direct Steam Generation in Parabolic Troughs: First Results of the DISS Project [J]. Journal of Solar Energy Engineering, 2002,124 (5) : 134 - 139. 被引量:1
  • 2MEck, E Zarza, M Eickhoff, et al. Applied research concerning the direct steam generation in parabolic troughs [J]. Solar Energy ,2003,74:341 - 351. 被引量:1
  • 3M Eek, WD Steinmann. Modelling and Design of Direct Solar Steam Generating Collector Fields[J]. Journal of Solar Energy Engineering, 2005,127(8) : 371 - 380. 被引量:1
  • 4Loreto Valenzuela , Eduardo Zarza , Manuel Berenguel, et al. Control concepts for direct steam generation in parabolic troughs [J]. Solar Energy, 2005,78 : 301 - 311. 被引量:1
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  • 6Rojas, ME, Ajona, et al.. Thermal gradient avoidance under stratified two - phase for in DSG by capillar structures [J]. Journal de la Physique Ⅳ Proceedings 1999,9 (3) : 135 - 140. 被引量:1
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  • 8ME Rojas, MC de Andres. Theoretical and experimental study of two - phase flow in micro - channels grooved into horizontal pipes[J]. International Journal of Multiphase Flow, 2006,32 : 517 - 520. 被引量:1
  • 9MERojas, MC de Andres, L. Gonzalez. Designing capillary systems to enhance heat transfer in LS3parabolic trough collectors for direct steam generation (DSG) [J]. Solar Energy, 2007,80. 被引量:1
  • 10Markus Pfander , Eckhard Lupfert, Paul Pistor. Infrared temperature measurements on solar trough absorber tubes [J]. Solar Energy, 2007,81 : 629 - 635. 被引量:1

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太阳能学报
2014年 第9期

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