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안영섭(An Young-Sub),김성태(Kim Sung-Tae),이성진(Lee Sung-Jin),송종화(Song Jong-Hwa),황상근(Hwang Sang-Kun),윤종호(Yoon Jong-Ho) 한국태양에너지학회 2010 한국태양에너지학회 논문집 Vol.30 No.4
This study has been carried out empirical research on Transparent Thin-film BIPV modules, BIPV modules installed on the exterior of the building are applied a laminated module 1㎾p, double-glazing module 3㎾p and triple-glazing module 1㎾p. Applied to the total capacity of BIPV modules are 5㎾p. In this study, design and construction process of BIPV systems is presented. In addition, through monitoring of the BIPV system, the temperature and the power characteristics of each module were analyzed. During the measurement period, the module temperature measurement results, the maximum surface temperature of 51.5℃ triple-glazing BIPV module showed the highest, followed by double-glazing BIPV module 49.1℃, 44.7℃ laminated modules, respectively. Power output results, the daily average double-layer modules showed 4.10㎾h/day, triple-glazing module 1.57㎾h, respectively 1.81㎾h laminated modules. In particular, the power efficiency of triple-glazing BIPV module was lower than the power efficiency of the laminated BIPV module. This phenomenon is considered to be affected by the module temperature. In the future, BIPV modules in this study the relationship between module temperature and power characteristics plans to identify.