Impact of Photovoltaic System Integration on Total Harmonic Distortion in IEEE 9-Bus System

Aswan University Journal of Sciences and Technology Pub Date : 2024-06-01 DOI:10.21608/aujst.2024.280685.1099

Amany Mahmoud, Gaber Elsaady, Ali Yousef, El-Noby Ibrahim

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Abstract

This research paper investigates the influence of photovoltaic (PV) array location on power quality within the context of an IEEE 9-bus system. As the global energy landscape shifts towards distributed generation (DG) renewable energy systems, understanding the dynamic interactions between PV systems and power grids becomes increasingly crucial. The study addresses a notable gap by comprehensively examining the impact of PV array location on total harmonic distortion (THD) under varying penetration levels. Leveraging mathematical modeling techniques and utilizing the IEEE 9-bus system as a benchmark, the research conducts a series of case studies involving load variations and sequential connections of PV systems to different buses. The findings underscore the importance of strategic PV array placement in mitigating harmonic distortion and ensuring power quality in grid-connected systems. Overall, this study contributes insights to the evolving field of renewable energy integration, emphasizing the significance of thoughtful PV system placement for enhancing grid stability and performance.

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光伏系统集成对 IEEE 9 总线系统总谐波失真的影响

本研究论文探讨了光伏阵列位置对 IEEE 9 总线系统电能质量的影响。随着全球能源格局向分布式发电 (DG) 可再生能源系统转变，了解光伏系统与电网之间的动态互动变得越来越重要。本研究通过全面研究光伏阵列位置对不同渗透水平下总谐波失真（THD）的影响，填补了这一显著空白。研究利用数学建模技术，以 IEEE 9 总线系统为基准，开展了一系列案例研究，涉及负荷变化以及光伏系统与不同总线的顺序连接。研究结果强调了战略性光伏阵列布置在减轻谐波畸变和确保并网系统电能质量方面的重要性。总之，这项研究为不断发展的可再生能源集成领域提供了真知灼见，强调了深思熟虑的光伏系统布置对于提高电网稳定性和性能的重要意义。

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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Aswan University Journal of Sciences and Technology

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