Simulation of Particle Trajectories in a Three Phase Common Enclosure Gas Insulated Busduct with Monte Carlo Technique

M. Rao, G. Kumar, J. Amarnath, S. Kamakshaiah
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引用次数: 3

Abstract

The excellent insulation properties of compressed sulphur hexaflouride are adversely affected by metallic particle contamination in practical gas insulated systems. The movement of such particles is random and the particles play a crucial role in determining the insulation behavior of GIS. Aluminum, copper and silver particles were considered to be present on enclosure surface. In order to determine the random behavior of moving particles, the calculation of movement in axial and radial directions was carried at every time step using rectangular random numbers. Simulation of particle movement with reduced phase conductor is also carried out with a view to obtain optimum size of conductor for reliable operation by reducing the original diameter of the conductor from 64 mm to 54 mm in steps of 5 mm. At each reduced diameter the particle movement is calculated at each instant in both radial and axial directions using Monte Carlo Technique. Monte Carlo simulation is also carried out by changing the random solid angle from 1 degree to 0.5 degrees. The results have been presented and analyzed.
用蒙特卡罗技术模拟三相共罩气体绝缘管道中的粒子运动轨迹
压缩六氟化硫优异的绝缘性能在实际气体绝缘系统中受到金属颗粒污染的不利影响。这些粒子的运动是随机的,粒子在决定GIS的绝缘行为中起着至关重要的作用。铝、铜和银颗粒被认为存在于外壳表面。为了确定运动粒子的随机行为,采用矩形随机数在每个时间步进行轴向和径向运动的计算。为了得到可靠运行的最佳导体尺寸,我们还对减相导体进行了粒子运动模拟,将导体的原始直径从64mm逐步减小到54mm。在每一个减小的直径粒子运动计算在每一个瞬间在径向和轴向使用蒙特卡罗技术。将随机立体角由1度变为0.5度,进行蒙特卡罗模拟。给出了实验结果并进行了分析。
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