Experimental Studies and Analysis for Performance Assessment of Floating Solar Photovoltaic Systems

Karmendra Kumar Agrawal, Ravi Kant Mittal, Shibani Khanra Jha, Ajit Pratap Singh, Sanjay Vashishtha, Manoj Kumar Soni
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Abstract

The Floating Solar Photovoltaic (FSPV) systems are expected to perform relatively at a higher efficiency level as compared to ground mounted PV systems. The major factor affecting the operating efficiency of a solar panel is the operating temperature of the PV panel which is relatively lower as compared to ground mounted PV system. To accomplish this, an experiment setup of FSPV system has been developed which consists of solar panels operating at different heights above water surface. The findings indicate that FSPV modules can reduce the module temperature by up to 4°C – 7°C. The performance of FSPV has been analysed under diurnal conditions. The performance has been assessed in terms of power output by utilising module parameters. The results highlight the power output from solar panel under varying heights help to optimize the operating heights of the solar panels over the water bodies to achieve maximum power output. Therefore, it is also advised for FSPV to raise the PV modules to their optimal height. The FSPV systems at 500 mm height provided 1.8-3.78% higher power output than ground mounted PV systems, maximum of all the panels above water.
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浮动太阳能光伏系统性能评估的实验研究与分析
与地面安装的光伏系统相比,浮动太阳能光伏(FSPV)系统的效率相对较高。影响太阳能电池板运行效率的主要因素是光伏电池板的工作温度,与地面安装的光伏系统相比,工作温度相对较低。为了实现这一目标,我们开发了一种 FSPV 系统实验装置,该装置由在水面以上不同高度运行的太阳能电池板组成。研究结果表明,FSPV 模块可将模块温度降低 4°C - 7°C。在昼夜条件下,对 FSPV 的性能进行了分析。利用模块参数对输出功率的性能进行了评估。结果突出显示了太阳能电池板在不同高度下的功率输出,有助于优化水体上方太阳能电池板的工作高度,以实现最大功率输出。因此,建议 FSPV 也将光伏组件提升到最佳高度。高度为 500 毫米的 FSPV 系统的输出功率比地面安装的光伏系统高 1.8-3.78%,是所有水上太阳能电池板中最高的。
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