Long-Term Observation of Ambient Temperature Effects on the Performance of A 60 kW CIGS Solar Power System Installed in Miyazaki

TENCON 2018 - 2018 IEEE Region 10 Conference Pub Date : 2018-10-01 DOI:10.1109/TENCON.2018.8650409

Kyaw Myo Win, Ryo Torihara, Shohei Kita, T. Sakoda, Y. Ota, K. Nishioka, Noriyuki Hayashi

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Abstract

The effect of ambient temperature on the performance of a roof mounted Cu (In, Ga) Se2 [CIGS] photovoltaic (PV) system, which is installed in the suburb residential area of Miyazaki city, Japan, has been analyzed for the period of 2012-2017. The research work has been carried out by monitoring the variation of the performance of the PV array and PV system. The PV array and PV system with a higher ambient temperature period experience a lower performance. High ambient temperatures determine a decrease of output power performances in the same conditions of solar insolation. The results show that there is a fair negative linear relationship between ambient temperature and the performances of the PV array and PV system. A statistical analysis has also been done and the results indicate that the linear relationship between the ambient temperature and performance ratio is able to be reasonably applied, and the slope of the approximated straight lines are between -0.00230 [1/deg-C] and −0.00760 [1/deg-C]. In short, the elevating of ambient temperature contributed to the negative impact on the output performances of the PV array and PV system.

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环境温度对宫崎市60kw CIGS太阳能发电系统性能影响的长期观察

研究了2012-2017年环境温度对安装在日本宫崎市郊区住宅小区屋顶安装的Cu (In, Ga) Se2 [CIGS]光伏(PV)系统性能的影响。研究工作是通过监测光伏阵列和光伏系统的性能变化来进行的。环境温度周期越长，光伏阵列和光伏系统的性能越低。在相同的日照条件下，高环境温度决定了输出功率性能的下降。结果表明，环境温度与光伏阵列和光伏系统的性能之间存在相当的负线性关系。统计分析结果表明，环境温度与性能比之间的线性关系能够合理应用，近似直线斜率在-0.00230[1/℃]~ - 0.00760[1/℃]之间。总之，环境温度的升高会对光伏阵列和光伏系统的输出性能产生负面影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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TENCON 2018 - 2018 IEEE Region 10 Conference

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