Analysis of 3-Phase Symmetrical and Unsymmetrical Fault on Transmission Line using Fortescue Theorem

Q3 Engineering

WSEAS Transactions on Power Systems Pub Date : 2022-10-19 DOI:10.37394/232016.2022.17.32

Fsaha Mebrahtu Gebru, Ayodeji Olalekan Salau, Shaimaa H. Mohammed, S. Goyal

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Abstract

This paper investigates the major faults affecting the transmission of electrical energy after power has been generated from the power generating station. In a 3-phase transmission line, faults arise due to numerous causes such as aircraft, line breaks due to the excessive loading, heavy winds, trees falling across the lines etc. The faults faced in a 3-phase transmission line are broadly categorized into two main parts, namely: unsymmetrical faults and symmetrical faults. Furthermore, there is another classification of faults in 3-phase transmission lines such as: shunt type of faults and series type of faults, but this paper discusses the shunt type of faults which create short circuit on single line to ground (L-G) faults between two conductors or line to line (L-L) faults, or double line to ground (LL-G) or (triple) three line to ground (LLL-G) faults. This was achieved using the Fortescue Theorem on MATLAB software. The results show that the single L-G faults occur more frequently followed by the L-L faults, LL-G faults, and LLL-G faults. This study is essential to evaluate the power reliability and stability of power transmission lines.

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用Fortescue定理分析输电线路三相对称和不对称故障

本文对电站发电后影响电能传输的主要故障进行了研究。在三相输电线路中，故障发生的原因有很多，如飞机、超负荷断线、大风、树木倒在线路上等。三相输电线路所面临的故障大致分为两大类，即不对称故障和对称故障。此外，三相输电线路的故障还有并联型故障和串联型故障，本文讨论的是两导体之间的单线到地(L-G)故障或线到线(L-L)故障、双线到地(LL-G)或(三)三线到地(LL-G)故障造成短路的并联型故障。这是利用MATLAB软件中的Fortescue定理实现的。结果表明:单L-G断裂发生频率较高，其次为L-L断裂、LL-G断裂和LL-G断裂;该研究对评价输电线路的可靠性和稳定性具有重要意义。

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

WSEAS Transactions on Power Systems Engineering-Industrial and Manufacturing Engineering

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： WSEAS Transactions on Power Systems publishes original research papers relating to electric power and energy. We aim to bring important work to a wide international audience and therefore only publish papers of exceptional scientific value that advance our understanding of these particular areas. The research presented must transcend the limits of case studies, while both experimental and theoretical studies are accepted. It is a multi-disciplinary journal and therefore its content mirrors the diverse interests and approaches of scholars involved with generation, transmission & distribution planning, alternative energy systems, power market, switching and related areas. We also welcome scholarly contributions from officials with government agencies, international agencies, and non-governmental organizations.