DC Electrical Trees in XLPE Induced by Short Circuits

S. Kumara, T. Hammarström, Xiangdong Xu, A. M. Pourrahimi, Christian Müller, Y. Serdyuk
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引用次数: 1

Abstract

This study aims at understanding electrical treeing in XLPE due to DC short circuits. A wire-plane type test object has been excited by a series of short circuit events after applying DC voltages of different levels and duration. The development of thin filamentary trees and their morphology was correlated with the inception probability. It was observed that the latter as well as the length of the trees increased with the magnitude of the applied voltage and the number of short circuit events. These observations are in good agreement with the hypothesis that the release of stored energy during short circuit causes electromechanical stresses in the materials giving rise to treeing process analogous to mechanical crack formation. It is suggested that the application of an adequate number of short circuits at a suitable voltage level and a sufficient stress duration can be used as a DC treeing test procedure.
短路诱导XLPE中的直流电气树
本研究旨在了解XLPE因直流短路而产生的电气树。在施加不同等级和持续时间的直流电压后,线平面型试验对象受到一系列短路事件的激励。细丝状乔木的发育及其形态与初始概率相关。观察到,后者以及树的长度随着施加电压的大小和短路事件的数量而增加。这些观察结果很好地与假设一致,即在短路期间释放存储的能量会导致材料中的机电应力,从而产生类似于机械裂纹形成的树状过程。建议在适当的电压水平和足够的应力持续时间下应用足够数量的短路可以作为直流树试验程序。
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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