遮光率对cigs太阳能组件电学参数的影响

El Hadji Abdoulaye Niass, Papa Touty Traore, Awa Dieye, Oumar Absatou Niasse, P. Tavarez, N. Mbengue, Z. Makir, Z. Sofiani, B. Ba
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摘要

本文的目的是研究遮光率对CIGS光伏组件电性能参数的影响。该研究涉及一种新型柔性CIGS型光伏组件,功率为90w,由深圳赛恩太阳能有限公司生产。该模块,参考SN-CIGS90,在初始条件下进行测试,以确保其正确运行,并确定遮光前电气参数的初始值。本次表征测试结束后,将该模块暴露在达喀尔可再生能源研究中心(CERER)的实际操作条件下,然后使用相同的掩模进行4种遮阳:部分遮阳25%部分遮阳,50%部分遮阳,75%部分遮阳和100%全遮阳。通过对四种遮阳方式的实验值的变化率,可以确定遮阳现象是影响cigs光伏组件电学参数的一个不利因素。事实上,对于遮光模块25%的表面,最大功率降低了58.139%,效率降低了60.507%,对于100%的遮光,模块损失了84.436%的最大功率和84.135%的性能。
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Effects of the Shading Rate on the Electrical Parameters of CIGS-Based Solar Modules
The aim of this article is to study the effects of the shading rate on the electrical performance parameters of CIGS PV modules. The study concerns a new flexible CIGS type photovoltaic module with a power of 90 W, manufac-tured by the company Shenzhen Shine Solar Co., Ltd. This module, reference SN-CIGS90, is tested under the initial conditions to ensure its correct operation and to determine the initial values of the electrical parameters before shading. After this characterization test, the module is exposed under the actual operating conditions of the Renewable Energies Study and Research Center (CERER), located in Dakar, then 4 types of shading are performed with the same mask: partial shading 25% partial shading, 50% partial shading, 75% partial shading, and 100% full shading. The variation rates obtained on the experimental values of the 4 types of shading carried out determine that the shading phenomenon constitutes a factor that influences negatively on the electrical parameters of a CIGS-based PV module. Indeed, for 25% of the surface of the shaded module, there is a reduction of 58.139% of the maximum power and of 60.507% of the efficiency and for shading of 100%, the module loses 84.436% of its maximum power and 84.135% of its performance.
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