DEGRADATION ANALYSIS OF WEATHERED CRYSTALLINE-SILICON PV MODULES

机译：风化晶体硅PV模块的降解分析

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We present an analysis of the results of a solar weathering program that found a linear relationship between maximum power degradation and the total UV exposure dose for four different types of commercial crystalline Si modules. The average degradation rate for the four modules types was 0.71% per year. The analysis showed that losses of short-circuit current were responsible for the maximum power degradation. Judging by the appearance of the undegraded control modules, it is very doubtful that the short-circuit current losses were caused by encapsulation browning or obscuration. When we compared the quantum efficiency of a single cell in a degraded module to one from an unexposed control module, it appears that most of the degradation has occurred in the 800 - 1100 nm wavelength region, and not the short wavelength region.

机译：我们对太阳风化程序的结果进行了分析，该结果发现了最大功率降解与四种不同类型的商业晶体Si模块的总UV暴露剂量之间的线性关系。四种模块类型的平均降解率为每年0.71％。该分析表明，短路电流的损耗负责最大功率劣化。通过外面的未扩展控制模块的外观来判断，短路电流损失是由封装褐变或遮蔽引起的。当我们将单个单元的量子效率与未曝光控制模块进行比较到一个来自未曝光的控制模块时，看起来大多数劣化发生在800-1100nm波长区域中，而不是短波长区域。

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《IEEE Photovoltaic Specialists Conference》|2002年||共4页
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C. R. Osterwald; A. Anderberg; S. Rummel; L. Ottoson;
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机译：风化晶体硅光伏组件的降解分析

DEGRADATION ANALYSIS OF WEATHERED CRYSTALLINE-SILICON PV MODULES

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