考虑环境参数影响的不同硅材料光伏组件效率对比分析

Md. Faysal Nayan, S. Ullah, S. Saif
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引用次数: 21

摘要

为了满足能源需求,太阳能光伏已经成为一种令人信服的可再生能源技术。太阳能光伏(PV)组件是当今世界上最有效、可持续和环保的系统之一。不同类型的光伏太阳能技术,如单晶硅,多晶硅,非晶硅,薄膜是最流行的发电技术。它们的组件性能和效率取决于光伏材料的电气和环境参数。本文对不同类型的光伏组件在环境参数变化下的能量效率变化进行了理论评价。利用模型参数对单晶、多晶和非晶材料进行了比较。本工作还说明了在实际工作条件下特定光伏组件的填充系数和效率的变化。利用MATLAB对P-V特性进行研究,在考虑温度和太阳辐射影响的情况下,评估太阳能光伏电池的最大功率点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparative analysis of PV module efficiency for different types of silicon materials considering the effects of environmental parameters
To meet the energy demand, solar photovoltaic has already emerged as a convincing renewable energy technology. Solar Photovoltaic (PV) modules are one of the most effective, sustainable, and eco-friendly systems in recent world. Different types of PV solar technologies like Mono crystalline silicon, poly crystalline silicon, amorphous silicon, thin film are the most popular technologies to produce electricity. Their module performance and efficiency depend on the electrical and environment parameters of the PV materials. This paper presents some theoretical evaluations for variation in the efficiency of energy for different types of photovoltaic (PV) module under changes of environmental parameters. A proper comparison is developed among the mono-crystalline, polycrystalline and amorphous material using the model parameters. This work also illustrates the variation of fill factor and efficiency of a specific photovoltaic module under real operating conditions. MATLAB is used to investigate the P-V characteristics to evaluate the maximum power point of solar photovoltaic cell considering the effect of temperature and solar radiation.
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