Experimental testing of distance protection performance in transient fault path resistance environment

2017 5th IEEE Workshop on Advances in Information, Electronic and Electrical Engineering (AIEEE) Pub Date : 2017-11-01 DOI:10.1109/AIEEE.2017.8270526

I. Zālītis, A. Dolgicers, J. Kozadajevs

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引用次数: 1

Abstract

This paper present an experimental comparison study of the distance protection operation during metallic earth faults, earth faults with constant fault arc resistance and faults with constant fault arc resistance and additional transient ground path resistance. The aim of this study is to recreate “in vitro” conditions when distance protection maloperated during fallen tree fault. Such earth faults are more common in the region and they are known as “weak points” of distance protection. The tests were performed by simulating the faults in MATLAB SimPowerSystems environment. The obtained transient waveforms of currents and voltages were then comtraded to ISA TDMS system, via which the output signals, provided to the digital relays, were generated. As a result an environment for testing of distance protection performance during fallen tree faults was created. This provides an opportunity to find possible errors of the existing distance protection algorithms and develop more robust ones.

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暂态故障路径电阻环境下距离保护性能的实验测试

本文对金属接地故障、带恒定故障电弧电阻的接地故障和带恒定故障电弧电阻外加瞬态接地路径电阻的故障进行了距离保护操作的实验对比研究。本研究的目的是重建“体外”条件下，距离保护误操作时，树木倒下故障。这种接地故障在该地区更为常见，它们被称为距离保护的“弱点”。在MATLAB SimPowerSystems环境下对故障进行了仿真测试。然后将得到的电流和电压的瞬态波形交换到ISA TDMS系统，通过该系统产生输出信号，提供给数字继电器。由此，建立了一种测试倒下树故障时距离保护性能的环境。这为发现现有距离保护算法可能存在的错误并开发更健壮的距离保护算法提供了机会。

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2017 5th IEEE Workshop on Advances in Information, Electronic and Electrical Engineering (AIEEE)

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