Auto-reclose Performance Evaluation on 500kV Transmission Line with Four Circuits on One Tower

2018 International Conference on Smart Green Technology in Electrical and Information Systems (ICSGTEIS) Pub Date : 2018-10-01 DOI:10.1109/ICSGTEIS.2018.8709099

A. A. Kusuma, H. M. Kevin Gausultan, P. Pramana, B. S. Munir

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引用次数: 1

Abstract

The use of transmission line with four circuits on one tower is one way that can be used to minimize the right of way (ROW) issues. There is no study that have discussed the performance of single pole auto-reclose (SPAR) for this type of transmission line, thus it is necessary to study the effect of using this transmission line to SPAR performance, especially study related to the duration of secondary arc. In this paper, the SPAR performance evaluation is performed by varying the fault location on phase, circuit, and transmission line length using transient analysis application. Each of scenario is simulated on phase arrangement which have the lowest and the highest electromagnetic field magnitude. Based on the simulation results, it is known that the use of phase arrangement with the lowest electromagnetic field magnitude will eliminate the probability of SPAR scheme failure for each single phase to ground fault location on this transmission line configuration.

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500kV四回路一塔输电线路自合闸性能评价

在一个塔上使用四个电路的传输线是一种可以用来最小化路权(ROW)问题的方法。目前还没有对该类型传输线的单极自合闸(SPAR)性能进行研究，因此有必要研究使用该传输线对SPAR性能的影响，特别是与二次弧持续时间有关的研究。本文利用暂态分析应用程序，通过改变故障位置、相位、电路和传输线长度来评估SPAR的性能。对每种情况进行了最低和最高电磁场强度的相位排列模拟。根据仿真结果可知，在该传输线配置中，采用电磁场强度最小的相位排列可以消除SPAR方案在各单相接地故障位置失效的概率。

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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来源期刊

2018 International Conference on Smart Green Technology in Electrical and Information Systems (ICSGTEIS)

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