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CORRECTING TEMPERATURE-DEPENDENT EFFICIENCY MODEL FOR COMMERCIAL DOUBLE JUNCTION THIN FILM SILICON MODULES

机译：商业双结薄膜硅模块的温度相关效率模型的校正

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The prediction of energy yield of photovoltaic modules is essential for avoiding energy losses and for marketing purposes. Temperature is one of the most critical factors that influence the efficiency swing of the modules under real-life conditions. Experiments show that the temperature-dependent efficiency model based on conversion efficiency temperature coefficient is inadequate for single and multi-junction modules based on thin-film silicon technology. Due to the Staebler-Wronski effect, the efficiency depends not only on the temperature at the instant of the measurement but also on the operating temperature history of the module. Here we indicate the module's stabilized efficiency (η_s) as a meaningful factor for correcting the temperature-dependent efficiency model.

机译：预测光伏模块的发电量对于避免能源损失和营销目的至关重要。温度是影响模块在实际条件下效率波动的最关键因素之一。实验表明，基于转换效率温度系数的温度相关效率模型对于基于薄膜硅技术的单结和多结模块而言是不充分的。由于Staebler-Wronski效应，效率不仅取决于测量瞬间的温度，还取决于模块的工作温度历史记录。在这里，我们将模块的稳定效率（η_s）表示为校正与温度相关的效率模型的有意义的因素。

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《》|2015年|1181-1184|共4页
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L. Locatelli; N. Narayan; A. Battaglia; A. Canino; C. Gerardi; O. Isabella; M. Zeman;
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CORRECTING TEMPERATURE-DEPENDENT EFFICIENCY MODEL FOR COMMERCIAL DOUBLE JUNCTION THIN FILM SILICON MODULES

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