Performance of gas insulated substation under particle contamination with Charge Simulation Method (CSM)

K. Subrahmanyam, J. Amarnath
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引用次数: 1

Abstract

This paper deals with the movement of free conducting particles inside a single phase Gas Insulated Bus duct(GIB).A two dimensional mathematical model was proposed for determining the movement pattern of metallic particle in GIB by considering all the forces acting on the particle like gravitational, drag and the electric field forces. A particle resting on the inner side of the outer enclosure is chosen. The co-efficient of restitution was considered at every impact with the enclosure of GIB. Electric fields at the instantaneous contaminated particle locations were computed using Charge Simulation Method (CSM). To determine the particle trajectory in a single phase Gas Insulated Bus duct (GIB), an enclosure diameter 152 mm and conductor diameter 55 mm is considered. The simulation carried out for various bus configurations with different aluminum, copper and silver wire like particles inside 100KV, 132KV, 145KV and 175KV class enclosure of GIB. The results of the simulation have been presented and analyzed in this paper.
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粒子污染下气体绝缘变电站性能的电荷模拟
本文研究了单相气体绝缘母线管道内自由导电粒子的运动。考虑重力、阻力和电场力等作用于金属颗粒的力,建立了金属颗粒在金属颗粒中运动模式的二维数学模型。选择一个位于外罩内侧的粒子。在每一次冲击中都考虑了恢复系数与GIB的封闭。利用电荷模拟方法(CSM)计算了污染粒子瞬时位置的电场。为了确定单相气体绝缘母线管道(GIB)中的粒子轨迹,考虑了外壳直径为152 mm,导体直径为55 mm。对GIB 100KV、132KV、145KV、175KV级外壳内不同铝、铜、银线样颗粒的母线配置进行了仿真。本文给出了仿真结果并进行了分析。
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