优化频率调节储能系统位置以提高频率稳定性

IF 4.6 4区化学 Q2 ELECTROCHEMISTRY

Batteries Pub Date : 2023-12-14 DOI:10.3390/batteries9120592

Jonghoon Lee, Sangwook Han, Dongho Lee

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引用次数: 0

摘要

由于对可再生能源的需求不断增长，各种形状和容量的电池储能系统（BESS）的安装量也在不断增加。为了应对可能发生的事故，我们开展了一项研究，以选择在指数承担 BESS 后备输入时频率稳定性方面的最佳输入 BESS 安装位置。这项研究的前提是，在有功功率吸收和传输最活跃的区域的母线上安装 BESS，可显著提高电力系统的频率恢复能力。在此前提下，有功功率流的大小和母线间相位差的比例特性得到了数学证实。本研究还计算了国内系统中安装有 13 个 FR-ESS 的总线的有效功率灵敏度指数，并通过为每种故障情况建立表格来审查频率输出。结果表明，频率上升的影响可以在潮流计算的水平上进行估算。因此，该研究为后续研究提出了一个改进灵敏度指数的方向。

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Optimizing the Location of Frequency Regulation Energy Storage Systems for Improved Frequency Stability

The installation of battery energy storage systems (BESSs) with various shapes and capacities is increasing due to the continuously rising demand for renewable energy. To prepare for potential accidents, a study was conducted to select the optimal location for installing an input BESS in terms of frequency stability when the index assumes the backup input of the BESS. This study builds on the premise that installing a BESS on a bus in an area where active power absorption and transmission are the most active can significantly contribute to increasing the frequency recovery of the power system. Based on this premise, the magnitude of the active power flow and the proportional characteristics of the phase difference between buses were mathematically confirmed. This study also calculated the effective power sensitivity index of a bus with 13 FR-ESSs installed in a domestic system and reviewed the frequency output by establishing a table for each failure scenario. The results indicated that the effect of frequency rise can be estimated at the level of tidal current calculation. Thus, the study suggested a direction for subsequent studies to improve the sensitivity index.

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