双面固定式、单轴和双轴农用光伏系统的 3D 视角系数功率输出建模

S. Zainali, Silvia Ma Lu, Eleonora Potenza, B. Stridh, A. Avelin, P. Campana
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引用次数: 1

摘要

本研究调查了采用双面光伏组件的农业光伏系统的性能。对瑞典和意大利的产量进行了比较。对三种农业光伏系统设计进行了评估:垂直固定式、单轴跟踪器和双轴跟踪器。结果表明,瑞典的具体发电量在 1090 至 1440 kWh/kWp/yr 之间变化,意大利的具体发电量在 1584 至 2112 kWh/kWp/yr 之间变化,其中垂直固定式光伏发电系统的发电量最低,而双轴跟踪式光伏发电系统的发电量最高。垂直固定式设计在低太阳仰角时发电量较高,而单轴和双轴跟踪式设计在中午时发电量明显较高。采用双轴跟踪器设计的发电量收益主要集中在中午,但与单轴跟踪器相比,增幅仅为 1-2%。研究得出结论,低高度、无跟踪的固定式农业光伏系统非常适合像瑞典这样的高纬度国家,而采用跟踪器解决方案的高架系统则更适合像意大利这样的地区。研究结果表明,采用双面光伏组件的农用光伏系统的性能在很大程度上取决于地理位置和系统下方种植作物的具体特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
3D View Factor Power Output Modelling of Bifacial Fixed, Single, and Dual-Axis Agrivoltaic Systems
This study investigates the performance of agrivoltaic systems employing bifacial photovoltaic modules. A comparison between yield in Sweden and Italy was carried out. Three agrivoltaic system designs were evaluated: vertical fixed, single-axis tracker, and dual-axis tracker. The results showed that the specific production varied between 1090 to 1440 kWh/kWp/yr in Sweden and 1584 to 2112 kWh/kWp/yr in Italy, where the lowest production was obtained with the vertical fixed agrivoltaic system while the highest production was obtained with the dual-axis tracking agrivoltaic system. The vertical fixed design had a higher electricity production during low solar elevation angles, while the single-axis and dual-axis tracking designs had significantly higher power production during mid-day. The electricity production gain using a dual-axis tracker design was mostly during mid-day, but the increase compared to the single-axis tracker was only 1-2%. The study concludes that low-height, fixed agrivoltaic systems without tracking are well-suited for high-latitude countries like Sweden, while elevated systems with tracker solutions are more suitable for locations like Italy. The findings suggest that the performance of agrivoltaic systems with bifacial photovoltaic modules is highly dependent on geographical location and the specific characteristics of the crops grown beneath them.
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