Battery Energy Storage System for Frequency Control in Power System

2023 15th International Conference on Electronics, Computers and Artificial Intelligence (ECAI) Pub Date : 2023-06-29 DOI:10.1109/ECAI58194.2023.10194099

Jaleel Al Hasheme, L. Toma, M. Eremia

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Abstract

The demand for frequency regulation services has expanded in recent decades in line with the unprecedented degree of penetration of renewables into energy systems. Simply increasing the capacity of conventional generators may not be a viable approach for providing frequency regulation services immediately due to the limited rate of decline and economic limitations of conventional generators. In some renewable energy integration projects, battery energy storage systems have been widely used as a promising approach for frequency management. Renewable energy's higher penetration in power systems usually displaces conventional synchronous generators. As a result, when an imbalance occurs in load generation, the inertia of the power system decreases, resulting in higher frequency deviation and potential system instability. In this paper the ability of BESS to provide virtual inertia and contribute to system frequency management is studied and validated using operations. The simulation is on a two-zone linked power system.

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用于电力系统变频调速的电池储能系统

近几十年来，随着可再生能源对能源系统的空前渗透，对频率调节服务的需求不断扩大。由于传统发电机的下降速度有限和经济上的限制，简单地增加传统发电机的容量可能不是立即提供频率调节服务的可行方法。在一些可再生能源集成项目中，电池储能系统作为一种有前景的频率管理方法已被广泛应用。可再生能源在电力系统中的较高渗透率通常会取代传统的同步发电机。因此，当负荷产生不平衡时，电力系统的惯性减小，导致更高的频率偏差和潜在的系统不稳定。本文通过实际操作研究和验证了BESS提供虚拟惯性和有助于系统频率管理的能力。仿真是在一个两区连接的电力系统上进行的。

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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2023 15th International Conference on Electronics, Computers and Artificial Intelligence (ECAI)

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