R. Pachauri, A. Minai, P. Kuchhal, Vandana Jha, Shashikant
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引用次数: 0
Abstract
An extensive investigation into the impact of shadowing conditions on photovoltaic (PV) systems (4×4 size) is presented in this paper. Two conventional PV module arrangements like Series-parallel (SP) and Total-cross-tied (TCT) are compared with a new mathematical puzzle such as Shape-Do-Ku based configuration under two realistic shading scenarios. In addition, the performance parameters such as power and voltage at global maximum power point (GMPP), power loss (PL), fill factor (FF), and execution ratio (ER) are assessed through MATLAB/Simulink modeling. The performance validation is through the experimental investigation, which proves the feasibility of the MATLAB/Simulink based results. Overall, the present study proves that the Shape-Do-Ku dependent results are better when compared to traditional PV module arrangements.
一个广泛的调查影响的遮阳条件对光伏(PV)系统(4×4尺寸)提出了在本文中。在两种现实的遮阳场景下,比较了两种传统的光伏组件排列方式,如串联并联(SP)和全交叉捆绑(TCT),以及一种新的数学难题,如基于Shape-Do-Ku的配置。此外,通过MATLAB/Simulink建模,对全局最大功率点(GMPP)、功率损耗(PL)、填充因子(FF)、执行比(ER)等性能参数进行了评估。通过实验验证了性能,验证了基于MATLAB/Simulink的结果的可行性。总的来说,本研究证明,与传统的光伏组件布置相比,形状- do - ku依赖的结果更好。
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