蓄电池储能系统对低频减载方案设计的适应性

Rajeev Jha, B. Khan, O. Mahela, Elisabeth Caro Montero, Yeshitila Hailu Tessema, Dejene Hurissa Boku
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引用次数: 0

摘要

电力系统的可靠运行是保证用户不间断供电的关键。然而,发电中的任何缺陷都可能导致频率偏差,从而破坏整个电力系统。为了应对这一挑战,具有快速响应的有源电源,如电池储能系统(BESS),可以被证明是一种非常有效的对策。BESS因其多种应用而广受欢迎,包括负载均衡,发电损失期间的频率和电压支持,改善瞬态和动态稳定性,以及提高电能质量。这使得BESS对电力系统重组做出了宝贵的贡献。BESS最重要的应用之一是负载频率控制,其中使用比例积分(PI)控制器来修改BESS的功率输出,从而进一步优化系统。本文考虑了一个两区水热互联系统,并在MATLAB中进行了仿真,以分析有PI控制器和没有PI控制器的BESS的影响。研究结果表明,该方法显著降低了减载量,使低频减载(UFLS)方案更加有效,确保了电力系统的可靠和不间断运行。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Adaptation of Battery Energy Storage System on Under-Frequency Load Shedding Scheme Design
The reliable operation of power systems is crucial for ensuring uninterrupted power supply to consumers. However, any deficiency in power generation can lead to frequency deviation, disrupting the entire power system. To address this challenge, an active power source with a fast response, such as a Battery Energy Storage System (BESS), can prove to be a highly effective countermeasure. The BESS has gained immense popularity for its diverse applications, including load leveling, frequency and voltage support during loss of generation, improving transient and dynamic stability, and enhancing power quality. This has made the BESS an invaluable contribution to power system restructuring. One of the most important applications of the BESS is in Load Frequency Control, where a proportional-integral (PI) controller is employed to modify the power output of the BESS, resulting in further optimization of the system. In this work, a two-area hydro-thermal interconnected system is considered, and simulations are performed in MATLAB to analyze the impact of the BESS with and without a PI Controller. The results demonstrate a significant reduction in the load shedding amount, and the under-frequency load shedding (UFLS) scheme is made even more effective, ensuring the reliable and uninterrupted operation of the power system.
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CiteScore
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