Influence of Dust Deposition on the Electrical Parameters of Silicon-Based Solar Panels Installed in Senegal (Dakar Region)

Dialo Diop, M. Diagne, A. Sambou, Pascal Bassène, Serigne Abdoul Aziz Niang, Astou Sarr
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引用次数: 4

Abstract

In recent years, photovoltaic (PV) modules are widely used in many applications around the world. However, this renewable energy is plagued by dust, airborne particles, humidity, and high ambient temperatures. This paper studies the effect of dust soiling on silicon-based photovoltaic panel performance in a mini-solar power plant located in Dakar (Senegal, 14°42'N latitude, 17°28'W longitude). Results of the current-voltage (I - V) characteristics of photovoltaic panels tested under real conditions. We modeled a silicon-based PV cell in a dusty environment as a stack of thin layers of dust, glass and silicon. The silicon layer is modeled as a P-N junction. The study performed under standard laboratory conditions with input data of irradiation at 1000 W/m2, cell temperature at 25°C and solar spectrum with Air Mass (AM) at 1.5 for the monocrystalline silicon PV cell (m-Si). The analysis with an ellipsometer of dust samples collected on photovoltaic panels allowed to obtain the refraction indices (real and imaginary) of these particles which will complete the input parameters of the model. Results show that for a photon flux arriving on dust layer of 70 μm (corresponding to dust deposit of 3.3 g/m2) deposited on silicon-based PV cells, short circuit current decreases from 54 mA (for a clean cell) to 26 mA. Also, conversion efficiency decreases by 50% compared to clean cell and the cell fill factor decreases by 76% - 50% compared to reference PV cell.
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粉尘沉降对塞内加尔(达喀尔地区)硅基太阳能电池板电参数的影响
近年来,光伏组件在世界范围内得到了广泛的应用。然而,这种可再生能源受到灰尘、空气颗粒、湿度和高温的困扰。本文研究了粉尘污染对位于达喀尔(塞内加尔,北纬14°42′,西经17°28′)的小型太阳能发电厂硅基光伏板性能的影响。光伏板在实际条件下的电流-电压(I - V)特性测试结果。我们模拟了一个多尘环境下的硅基光伏电池,它是一层薄薄的灰尘、玻璃和硅。硅层被建模为一个pn结。该研究在标准实验室条件下进行,输入数据为1000 W/m2的辐照,电池温度为25°C,太阳光谱空气质量(AM)为1.5。利用椭圆计对光伏板上采集的粉尘样品进行分析,得到了这些颗粒的折射率(实折射率和虚折射率),完成了模型的输入参数。结果表明,当光子通量到达硅基光伏电池上70 μm的粉尘层(相当于3.3 g/m2的粉尘沉积)时,短路电流从54 mA(清洁电池)降低到26 mA。此外,与清洁电池相比,转换效率降低了50%,与参考光伏电池相比,电池填充系数降低了76% - 50%。
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