输电线路补偿和可再生能源集成对保护方案的影响综述

Energies Pub Date : 2024-07-12 DOI:10.3390/en17143433
Ntombenhle L Mazibuko, K. Akindeji, K. Moloi
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引用次数: 0

摘要

由于能源供需不匹配,南非目前正在经历一场能源危机。日益增长的能源需求要求发电和输电设施充分运行,以保持电力系统的可靠性。输电线路补偿用于提高电力传输能力,从而增强系统稳定性、电压调节和无功功率平衡。此外,近年来,可再生能源(RES)的引入已被证明可通过提供额外能源有效支持电网。因此,电力系统的动态发生了变化,许多发展中国家正在采用将可再生能源并入电网的方法,以提高能源可用系数的宽高比。虽然这两种技术都有助于提高电网满足能源需求的能力,但它们经常带来技术挑战,影响系统的稳定性和保护。本文全面回顾了输电线路补偿和可再生能源整合带来的挑战,以及文献中提出的解决这些问题的各种技术。本文综述了针对有补偿和无补偿输电线路(包括与可再生能源连接的输电线路)的不同补偿技术,包括故障检测、分类和定位。然后,本文分析了文献中可用的自适应距离保护方案,以减轻可再生能源补偿/并入电网的影响。根据所查阅的文献,保护工程师有必要了解结合了可再生能源和重补偿输电线路的网络拓扑结构所带来的动态变化。
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A Review on the Impact of Transmission Line Compensation and RES Integration on Protection Schemes
South Africa is currently experiencing an energy crisis because of a mismatch between energy supply and demand. Increasing energy demand necessitates the adequate operation of generation and transmission facilities to maintain the reliability of the power system. Transmission line compensation is used to increase the ability to transfer power, thereby enhancing system stability, voltage regulation, and reactive power balance. Also, in recent years, the introduction of renewable energy sources (RES) has proven to be effective in supporting the grid by providing additional energy. As a result, the dynamics of power systems have changed, and many developing nations are adopting the integration of renewable energy into the grid to increase the aspect ratio of the energy availability factor. While both techniques contribute to the grid’s ability to meet energy demand, they frequently introduce technical challenges that affect the stability and protection of the systems. This paper provides a comprehensive review of the challenges introduced by transmission line compensation and the integration of renewable energy, as well as the various techniques proposed in the literature to address these issues. Different compensation techniques, including fault detection, classification, and location, for compensated and uncompensated transmission lines, including those connected to renewable energy sources, are reviewed. This paper then analyzes the adaptive distance protection schemes available in the literature to mitigate the impact of compensation/integration of RES into the grid. Based on the literature reviewed, it is essential for protection engineers to understand the dynamics introduced by network topology incorporating a combination of RES and heavily compensated transmission lines.
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