顺德职业技术学院学报
順德職業技術學院學報
순덕직업기술학원학보
JOURNAL OF SHUNDE POLYTECHNIC
2015年
1期
18-21
,共4页
王宏磊%金叶义%陈荣荣%董娴%沈辉
王宏磊%金葉義%陳榮榮%董嫻%瀋輝
왕굉뢰%금협의%진영영%동한%침휘
光伏组件%多晶硅%质保期限%EL%可靠性
光伏組件%多晶硅%質保期限%EL%可靠性
광복조건%다정규%질보기한%EL%가고성
PV module%polycrystalline silicon%degradation%EL%reliability
晶体硅光伏组件在户外长期运行时,各种材料会出现性能衰退。通过探究一批使用约30年的多晶硅组件,发现其在户外使用28年后衰减率仅为5.37%。此外,通过长期监测组件发电性能研究其在广州地区的发电和衰减情况,并采用EL测试研究材料衰变对组件影响,评估光伏组件的可靠性。
晶體硅光伏組件在戶外長期運行時,各種材料會齣現性能衰退。通過探究一批使用約30年的多晶硅組件,髮現其在戶外使用28年後衰減率僅為5.37%。此外,通過長期鑑測組件髮電性能研究其在廣州地區的髮電和衰減情況,併採用EL測試研究材料衰變對組件影響,評估光伏組件的可靠性。
정체규광복조건재호외장기운행시,각충재료회출현성능쇠퇴。통과탐구일비사용약30년적다정규조건,발현기재호외사용28년후쇠감솔부위5.37%。차외,통과장기감측조건발전성능연구기재엄주지구적발전화쇠감정황,병채용EL측시연구재료쇠변대조건영향,평고광복조건적가고성。
When operating outdoors over a lengthy period of time, performance degradation of materials of silicon PV modules would occur. The authors of this paper studied a batch of approximately 30-year-old polycrystalline silicon modules and found that the power degradation is only about 5.37%after 28 years outdoor operation. In addition, these modules were being monitored to study their electricity yield and power degradation in Guangzhou city, and the EL tes-ter was used to detect these modules' defects in order to find out the influence of material degradation towards module performance and evaluate the reliability of PV modules.
