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Experimental Analysis of Ventilation Effect on the Performance of Building-Integrated PV Solar Roof  

Kim, Jin-Hee (New and Renewable Energy Research Dept. Korea Institute of Energy Research)
Lee, Kang-rock (Engineering Research Institute, Kongju National University)
Kim, Jun-Tae (School of Architecture, Kongju National University)
Publication Information
Journal of the Korean Solar Energy Society / v.26, no.1, 2006 , pp. 73-79 More about this Journal
Abstract
The integration of PV modules into building facades or roof could raise PV module temperature that results in the reduction of electrical power generation. Lowering operating temperature of PV module is important in this respect, and PV module temperature should be considered more accurately, for building-integrated PV(BIPV) systems in predicting their performance. This paper describes a BIPV solar roof design and verifies its performance through experiment In relation to the effect of ventilation in space between PV module and roof surface. The results showed that the ventilation in the space had a positive effect in lowering the module temperature of the BIPV solar roof that enhanced the performance of its electricity generation.
Keywords
building-integrated photovoltaic solar roof; PV module temperature; ventilation effect; generated electricity;
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  • Reference
1 김진희, 김준태, PV모듈 온도를 고려한 BIPV시스템 성능평가, 한국태양네너지학회 춘계학술발표회논문집, 2004. 5. pp53-pp58
2 Energy Equipment Testing Service(EETS), PV COOL-BUILD, Department of Trade and Industry, UK, 2004
3 Roger Messenger, Photovoltaic Systems Engineering, CRC Press, Boca Raton, 2000
4 Randall Thomas(ed), Photovoltaics and Architecture, Spon Press, London, 2001
5 Steven J. Strong, The Solar Electric House, Sustainability Press, Massachusetts, 1993
6 Tomas Markvart, Solar Electricity, John Wiley & Sons, Chichester and New York, 2000