期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

热管型太阳能热电联产系统 被引量:3

Heat Pipe Solar Cogeneration System
下载PDF
导出
摘要 传统的太阳能光伏组件受温度影响较大,光伏组件表面温度的急剧升高会严重影响光伏电池的发电效率。太阳能热电联产系统回收利用太阳能电池产生的热能可降低太阳能电池的工作温度,在提高太阳能电池发电效率的同时亦可产生热水。充分运用热管导热技术,自主设计了热管型太阳能热电联产系统组件、太阳能光热系统。该系统运行两年来,年均产电2.37万k W·h,年产45℃以上热水2 000 t,具有显著的经济和环境效益,推广应用前景广阔。 Traditional solar photovoltaic modules influenced by temperature, high surface temperature of PV modules will seriously affect the power generation efficiency of the photovoltaic cell. Solar cogeneration systems recover heat generated by solar cells, the system reduces the operating temperature of the solar cell, also can produce hot water, while improving power generation efficiency of solar cells. Making full use of heat pipe thermal technology, we independently design heat pipe solar cogeneration system components and solar thermal systems. The system has been running for two years, which output electricity reached 23 700 kW and its annual output of hot water above 45 ℃ average reached 2 000 tons, with significant economic and environmental benefits. The application prospect of the system is vast.
作者 曹勋
机构地区 河南易成新能源股份有限公司
出处 《建筑节能》 CAS 2016年第9期34-37,共4页 BUILDING ENERGY EFFICIENCY
关键词 热管 太阳能 太阳能热电联产系统组件 光伏系统 光热系统 heat pipe solar energy components of solar cogeneration system Photovoltaic systems solar thermal system
分类号 TK014 [动力工程及工程热物理]
  • 相关文献

参考文献1

二级参考文献51

  • 1[1]Bakker M, Strootman K J, Jong M J M. PVT panels: fully renewable and competitive[ A]. The ISES solar world congress 2003 [ C], Goteborg, Zweden. 2003:14-19.
  • 2[2]Tripanagnostopoulos Y, NOUSIA T H, et al. Hybrid photovoltaio/thermal solar systems[ J]. Solar Energy, 2002, 72(3) :217-234.
  • 3[3]ZONDAG H A, VRIES D W D E, et al. The thermal and electrical yield of a PV-thermal collector[ J]. Solar Energy,2002, 72(2) :113-128.
  • 4[4]David L Staebaer, Natko B Urli, Zoltan J, et al. Development of high efficiency hybrid PV-thernal modules[ A]. 29th IEEE PVSC[C], New Orleans: 2002, 3(19- 24):1660-1663.
  • 5[5]Kern Jr E C, Russell M C. Combined photovoltaic and thermal hybrid collector systems[ A]. Proc 13th IEEE photovoltaic specialists[ C], Washington DC: 1978,1153-1157.
  • 6[6]Henrik Sorensen. Hybrid PV/thermal collectors[ A]. The 2nd world solar electric buildings conference[ C], Sydney, 2000,8th- 10th March.
  • 7[7]Zondag H A, Jon M J M g, HeldenW G J van. Development and applications for PV thermal[ A]. The 17th european photovoltaic solar energy conference [ C ], Munich, Germany,2001, October 22-26.
  • 8[8]Zondag H A, Helden W G J van. PV-thermal domestic systems[ A]. The 3rd world conference on photovoltaic energy conversion[C], Osaka, Japan, 2003, (3):11-18.
  • 9[9]Bakker M, Zondag H A, Helden W G J van. Design of a dual flow photovoltaic/thermal combi panel[ A]. The PV in europe-from PV technology to energy solutions conference and exhibition[ C], Rome, Italy, 2002, October 7-11.
  • 10[10]Adel A Hegazy. Comparative study of the performance of four photovoltaic/thermal solar air collectors [ J ] . Energy Conversion & Management, 2000, 41: 861-881.

共引文献12

同被引文献69

引证文献3

二级引证文献10

建筑节能
2016年 第9期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部