利用角度和波长分辨太阳辐照度数据对美国大陆商用屋顶光伏系统进行优化

Bowen Zhou, Cheng Zheng, C. Grigoropoulos
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引用次数: 1

摘要

本文提出了一种优化商业屋顶光伏系统安装的系统方法,使用更现实的角度和波长分辨晴空太阳辐照度数据估计能量产量,并量化经济效益。在本文对伯克利的案例研究中,发现建议的半年固定倾斜太阳能电池板配置可将能源产量增加5.8%,在夏季高峰时段可增加15.6%。本研究试图量化提高太阳能电池的角度和光谱响应的能量产量和经济效益。我们认为,这些信息对于制造商评估某种技术改进的成本效益和开发人员在特定地理位置选择更具成本效益的产品非常重要。本研究涵盖了北纬30°至北纬45°的3个城市,以代表美国下大陆的典型地理变化。由于地理位置的不同,南北能源产量的差异在冬季最为显著,约为15%。
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Optimization of commercial rooftop PV systems in the continental united states using angle-and-wavelength-resolved solar irradiance data
This paper presents a systematic approach for optimizing commercial rooftop PV system installations, estimating energy yields using more realistic angle-and-wavelength-resolved clear sky solar irradiance data and quantifying the economic benefits. In this paper's case study of Berkeley, the proposed semiannually-fixed tilt configuration of solar panels is found to increase the energy yield by 5.8% over the year and up to 15.6% during peak summer days. This study attempts to quantify both the energy yield and economic benefits of improved angular and spectral response of solar cells. We believe that these sets of information would be important for manufacturers to assess the cost-effectiveness of a certain technological improvement, and for developers to choose the more cost-effective products for installations at a given geographic location. 3 cities varying from N30° to N45° in latitude are covered in this study to represent the typical geographic variations in the lower continental United States. The north-south difference in energy yield due to geographic locations is most significant in winter by about 15%.
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