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引用次数: 2
摘要
为了符合现代电力系统监管标准,需要新的安全策略和弹性工作。本工作提出了电池储能(BES)在网络脆弱性缓解中的应用。首先,引入一种新的基于扰动的脆弱性指标来量化网络的鲁棒性。网络脆弱性指数(NVI)是当前潮流变量、与安全限制的相关距离以及由线路和发电机中断引起的事后应急情况的函数。其次,在计算集群上编码非支配排序遗传算法II (Non - dominant Sorting Genetic Algorithm II, NSGA-II),利用大规模分布式环境,优化BES单元的分配,同时最小化BES和NVI的总规模。IEEE可靠性测试系统1996 (RTS96)的研究结果证明了NVI测量网络脆弱性水平的有效性。此外,研究表明,如果最佳选址和大小的BES单元,可以有助于电网的弹性。
Application of Battery Energy Storage for network vulnerability mitigation
To comply with modern power system regulatory standards, new security strategies and resiliency efforts are required. This work proposes application of Battery Energy Storage (BES) for network vulnerability mitigation. First, a novel disturbance-based vulnerability index is introduced to quantify the robustness of the network. The network vulnerability index (NVI) is a function of the current power flow variables, related distances from security limits and those of post contingency situations, caused by lines and generators outages. Next, Non dominated Sorting Genetic Algorithm II (NSGA-II) is coded on a computing cluster, taking advantage of a massively distributed environment, to optimally allocate BES units while minimizing total size of BES and NVI simultaneously. Study results on IEEE Reliability Test System 1996 (RTS96) prove the effectiveness of NVI to measure the level of network vulnerability. Moreover, it is shown that BES units, if optimally sited and sized, can contribute to the grid resiliency.
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