Simulation of free conducting particles speed control in a 1-Φ compressed gas insulated bus duct under electromagnetic field effect

2014 International Conference on Smart Electric Grid (ISEG) Pub Date : 2014-09-01 DOI:10.1109/ISEG.2014.7005590

M. Srikanth, P. Upadhyay, J. Amarnath

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Abstract

Metallic particle contamination is one of the areas of insulation design that are considered critical. The management and control of particle contamination are crucial considerations as the industry moves forward to higher voltage GIS and long GITL designs using SF6 in some components. Free conducting particles may lower the corona onset and breakdown voltage of a GIS/GITL system considerably. Under an applied electric field a conducting particle acquires a charge and lifts off from its resting position on the conductor when the electromagnetic force from the field becomes equal to the gravity force. Metallic particles move randomly in a horizontally mounted GIS/GITL system due to the electrode surface roughness and particle irregularities. Under 50 Hz AC voltage, the particle can cross the gap at a sufficiently high voltage level. Monte Carlo simulation is carried out on a single phase GIS for determining the motion of free conducting particles in the presence of Electromagnetic field. The results have been presented and analyzed.

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电磁场作用下1-Φ压缩气体绝缘母线风道内自由导电粒子速度控制仿真

金属颗粒污染是绝缘设计中被认为至关重要的领域之一。随着行业向在某些组件中使用SF6的更高电压GIS和长GITL设计迈进，颗粒污染的管理和控制是至关重要的考虑因素。自由导电粒子可显著降低GIS/GITL系统的电晕起始电压和击穿电压。在外加电场的作用下，当电场的电磁力等于重力时，导电粒子就会带电荷，并从导体上的静止位置升起。由于电极表面粗糙度和颗粒的不规则性，金属颗粒在水平安装的GIS/GITL系统中随机移动。在50赫兹的交流电压下，粒子可以在足够高的电压水平下穿过间隙。采用蒙特卡罗方法对单相GIS进行了模拟，以确定自由导电粒子在电磁场作用下的运动。给出了实验结果并进行了分析。

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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2014 International Conference on Smart Electric Grid (ISEG)

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