Electric field analysis at the triple junction of a optimum profile disc type spacer in SF6 gas insulated system with abnormalities under DC voltages

2011 Annual Report Conference on Electrical Insulation and Dielectric Phenomena Pub Date : 2011-10-01 DOI:10.1109/CEIDP.2011.6232635

D. Chowdary, J. Amarnath

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引用次数: 6

Abstract

In Gas Insulated Systems the breakdown strength of SF6 gas is badly affected by locally enhanced electric fields due to protrusions and delamination. Metal insert electrodes, which are used in GIS, reduces stresses near the triple junctions with simultaneous rise in the stresses elsewhere along spacer surface. AC-GIS are in operation for a long time but there is a limited knowledge for DC application. In the case of DC-GIS, charges invariably accumulate over a period of time along the spacer surface. The electric field distribution around solid spacer is greatly altered by the accumulated surface charges. In this work, the electric field distribution with DC as applied voltage is studied at the triple junction for a cone type spacer with and without metal insert along with the effect of delamination and protrusions on the surface of the insulator. Finite Element Method (FEM), one of the proven numerical method, is used for computing the electric fields at various points under consideration.

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直流电压异常情况下SF6气体绝缘系统最佳剖面圆盘式隔片三结处电场分析

在气体绝缘系统中，由于SF6气体的突出和分层引起的局部增强电场严重影响其击穿强度。在GIS中使用的金属插入电极可以减少三连接点附近的应力，同时在间隔器表面的其他地方增加应力。交流地理信息系统已经运行了很长时间，但人们对直流应用的了解有限。在DC-GIS的情况下，电荷总是在一段时间内沿着隔离器表面积累。固体间隔片周围的电场分布会因表面电荷的积累而发生很大的变化。本文研究了带和不带金属嵌件的锥形隔片在三结处的电场分布，以及绝缘子表面的分层和凸点的影响。有限元法是一种已得到验证的数值计算方法，用于计算各考虑点处的电场。

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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2011 Annual Report Conference on Electrical Insulation and Dielectric Phenomena

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