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Performance Assessment of Sputter-Coating-Colored BIPV Modules Through Field Test

현장 실험을 통한 Sputter Coating 컬러 BIPV 모듈의 발전성능 평가

  • Lee, Hyo-Mun (Department of Architecture Engineering, Graduate school, Hanbat National University) ;
  • Yoon, Jong-Ho (Department of Architecture Engineering, Hanbat National University) ;
  • Kim, Hyun-Il (Photovoltaic R & D Center, Hyundai Energy Solutions Co., Ltd.) ;
  • Lee, Gun-Hwan (Surface Technology Division, Korea Institute of Materials Science)
  • 이효문 (한밭대학교 일반대학교 건축공학과) ;
  • 윤종호 (한밭대학교 건축공학과) ;
  • 김현일 (현대에너지솔루션 태양광연구소) ;
  • 이건환 (한국기계연구원부설 재료연구소 표면기술연구본부)
  • Received : 2020.07.30
  • Accepted : 2020.08.31
  • Published : 2020.10.30

Abstract

To assess the performance and characteristics of colored building-integrated photovoltaic (BIPV) modules, a comparative assessment of empirical performance was conducted on colored BIPV modules (gray, blue, and orange) and general BIPV module. These modules were installed on the south-facing slope (30°) for comparative assessment through a field test. Monitoring data were collected every 10 min from December 20, 2019 to January 21, 2020 and used to performance and characteristics analysis. Performance ratio and module efficiency were utilized during performance indexing for comparative assessment. For general BIPV modules, the operational efficiency was analyzed at 16.63%, whereas for colored BIPV modules, 13.70% (gray), 15.12 % (blue), and 14.49% (orange) were analyzed. It was discovered that the efficiency reduction caused by transmission losses owing to the application of colored cover glasses were 17.74% (gray), 9.05% (blue), and 9.86 % (orange), under field testing conditions. These values turned on an additional 7% reduction in efficiency for gray BIPV modules, compared to the degradation resulting from transmission drop (gray: 10.87%, blue: 8.99%, and orange: 9.02%) calculated using the efficiency of each module in standard test conditions (STC). Performance ratio analysis resulted in the following values: 0.92 for general BIPV modules, and 0.85 (gray), 0.91 (blue), and 0.91 (orange) for colored BIPV modules. As demonstrated by the above results, modules with a colored cover glass may differ in their operational performance depending on their color, unlike general modules. Therefore, in addition to the performance evaluation under STC, additional factors of degradation require consideration through field test.

Keywords

References

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