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주택지붕용 2kWp BIPV시스템의 성능 실험 및 전기 부하 감당에 관한 연구
이강록,오명택,박경은,김진희,김준태,Lee, Kang-Rock,Oh, Myung-Tack,Park, Kyung-Eun,Kim, Jin-Hee,Kim, Jun-Tae 한국태양에너지학회 2006 한국태양에너지학회 논문집 Vol.26 No.1
The efficiency of building-integrated photovoltaic(BIPV) system is mainly determined by solar radiation and the temperature of PV modules. The performance of BIPV systems is reported to be different from that of conventional PV systems installed in the open-air. This paper presents the relationship of solar radiation and electricity generation from a 2kWp roof-integrated PV system that is applied as building elements on an experimental house, and the energy saving effect of the BIPV system for a typical house. For the performance evaluation of the BIPV system, it produced a regression equation with measured data for winter days. The regression equation showed that a comparison of the measured electricity generation and the predicted electricity generation of the BIPV system were meaningful. It showed that an annual electricity generation of the system appeared to cover around 52% of an annual electricity consumption of a typical domestic house with the floor area of $96m^2$.
주택지붕용 2㎾p BIPV시스템의 성능 실험 및 전기 부하 감당에 관한 연구
이강록(Lee Kang-Rock),오명택(Oh Myung-Tack),박경은(Park Kyung-Eun),김진희(Kim Jin-Hee),김준태(Kim Jun-Tae) 한국태양에너지학회 2006 한국태양에너지학회 논문집 Vol.26 No.1
The efficiency of building-integrated photovoltaic(BIPV) system is mainly determined by solar radiation and the temperature of PV modules. The performance of BIPV systems is reported to be different from that of conventional PV systems installed in the open-air. This paper presents the relationship of solar radiation and electricity generation from a 2㎾p roof-integrated PV system that is applied as building elements on an experimental house, and the energy saving effect of the BIPV system for a typical house. For the performance evaluation of the BIPV system, it produced a regression equation with measured data for winter days. The regression equation showed that a comparison of the measured electricity generation and the predicted electricity generation of the BIPV system were meaningful. It showed that an annual electricity generation of the system appeared to cover around 52% of an annual electricity consumption of a typical domestic house with the floor area of 96㎡.