Study on Single Bus Separation Mode and In-out Line Arrangement Based on Short Circuit Current Optimization

2021 IEEE 4th International Electrical and Energy Conference (CIEEC) Pub Date : 2021-05-28 DOI:10.1109/CIEEC50170.2021.9511034

Hui Ma, Yong Wang, Shengya Qiao, Kaipei Liu, Tianyuan Tan, Rong Fu

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Abstract

In order to limit the short circuit current (SCC) in the power system, bus separate operation is the most simple, effective and economical way. When limiting the SCC by using the method of bus separation, the specific switch of the bus is usually broken after the topology of the in-out lines of bus are fixed, but the influence of the arrangement of the bus in-out lines and the mode of bus separation on the effect of SCC limitation is not considered. Based on the virtual branch method, this paper studies the influence of the bus in-out line arrangement and mode of bus separation on the node SCC, and takes the SCC as the optimization target, so as to get the optimal scheme. From the node impedance matrix, this method illustrates the influence of bus separation mode and in-out line arrangement on the SCC. Finally, the effectiveness of this method is analyzed and verified in IEEE39 node standard network. The example shows that the result of the model is consistent with the conventional enumeration method, but the enumeration times are reduced by more than half.

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基于短路电流优化的单母线分离方式及进出线布置研究

为了限制电力系统中的短路电流，母线分离运行是最简单、有效和经济的方法。采用母线分离的方法对SCC进行限制时，通常是在母线进出线拓扑固定后，断开母线的特定开关，而没有考虑母线进出线的布置和母线分离方式对SCC限制效果的影响。基于虚拟支路方法，研究了母线进出线布置和母线分离方式对节点SCC的影响，并以节点SCC为优化目标，从而得到最优方案。该方法从节点阻抗矩阵出发，说明了母线分离方式和输入输出线布置对SCC的影响。最后，在IEEE39节点标准网络中对该方法的有效性进行了分析和验证。算例表明，该模型的计算结果与传统的枚举方法基本一致，但枚举次数减少了一半以上。

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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2021 IEEE 4th International Electrical and Energy Conference (CIEEC)

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