Su-Do-Ku Game Puzzle for Improving Shade dispersion factor on PV Array Systems under PSCs: Experimental Validation

2022 International Conference on Emerging Smart Computing and Informatics (ESCI) Pub Date : 2022-03-09 DOI:10.1109/ESCI53509.2022.9758362

R. Pachauri, Ankur Kumar Gupta, A. Minai, M. Kumar, Shashikant

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引用次数: 7

Abstract

Partial shading conditions (PSCs) are the most significant impediment to photovoltaic (PV) system performance. The cause of PSCs is due to high rise buildings, passing clouds, overcast weather, and telecom towers etc. in urban areas. The conventional PV array, e.g., Total cross-tied (TCT) configuration, is utilized to show the effectiveness of PSCs. In addition, integer number placement of Su-Do-Ku model is introduced to reduce the impact of shading. Furthermore, a comprehensive comparison carries out to reduce the shading impact on PV array systems. This elaborated comparative study analysis is based on distinguished performance parameters such as, short-circuit current ($I_{SC}$), open-circuit voltage ($V_{OC}$), power and voltage at global maximum power point (GMPP), minimized power loss (PL), and fill factor (FF) are measured to show the efficient behaviour of new approach. Moreover, MATLAB/Simulink analysis proves the efficiency of the suggested method by reducing the many peaks and improving the resultant power. An experimental study was introduced to validate the obtained results and confirm the practicability of the present study.

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PSCs下改善光伏阵列系统色散因子的Su-Do-Ku游戏难题:实验验证

部分遮阳条件(PSCs)是光伏(PV)系统性能的最大障碍。造成PSCs的原因是由于城市地区的高层建筑、过云、阴天和电信塔等。传统的光伏阵列，例如，全交联(TCT)配置，被用来显示PSCs的有效性。此外，引入了Su-Do-Ku模型的整数放置，以减少阴影的影响。此外，还进行了全面的比较，以减少遮阳对光伏阵列系统的影响。这一详细的比较研究分析是基于不同的性能参数，如短路电流($I_{SC}$)、开路电压($V_{OC}$)、全局最大功率点的功率和电压(GMPP)、最小功率损耗(PL)和填充因子(FF)的测量，以显示新方法的有效行为。通过MATLAB/Simulink分析，证明了该方法的有效性，减少了多个峰值，提高了输出功率。通过实验研究对所得结果进行了验证，证实了本研究的实用性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 International Conference on Emerging Smart Computing and Informatics (ESCI)

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