可再生能源
网格
可靠性工程
计算机科学
光伏系统
可靠性(半导体)
豆马勃属
太阳能
汽车工程
系统工程
风险分析(工程)
电气工程
电力系统
工程类
功率(物理)
业务
数学
物理
量子力学
几何学
作者
Kanchan Jha,Abdul Gafoor Shaik
出处
期刊:e-Prime
[Elsevier]
日期:2023-03-01
卷期号:3: 100103-100103
被引量:6
标识
DOI:10.1016/j.prime.2022.100103
摘要
Solar photo-voltaic (SPV) is a major contributor of renewable energy (RE) sources, which plays an important role in tackling climate change, reducing the cost of energy, improving the reliability of power supply, and providing access to energy. SPV is a major hope for “access to energy” for remote populations which are deprived of the conventional grid due to economical and feasibility issues. These issues are to be tackled in due course of time to enhance the reliability of the supply. The Extension of the grid to these areas weakens the strength of the grid. This results in a scenario of PV integration into a weak AC grid. However, solar integration into a weak AC grid provides power quality (PQ) challenges that limit the penetration levels. The other components which limit penetration levels include non-linear loads, dynamic loads, variable irradiations and partial shading etc. Various DFACTS devices in association with different conventional, adaptive and AI-based algorithms have been proposed in this article to mitigate PQ challenges associated with a weak grid to enhance penetration levels of Solar PV. This article provides a comprehensive review of various power quality challenges associated with SPV penetration and PQ mitigation techniques involving various DFACTS devices and control algorithms such as conventional control, adaptive control, and AI-based control algorithms. More than 130 research articles have been rigorously assessed, categorized, and listed in this article for quick reference for the advantage of engineers and academicians working in this area of research.
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