中断真空电弧后对护套发育的碰撞影响

2011 1st International Conference on Electric Power Equipment - Switching Technology Pub Date : 2011-10-01 DOI:10.1109/ICEPE-ST.2011.6122927

Zhenxing Wang, Yingsan Geng, Zhiyuan Liu

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引用次数: 5

摘要

真空电弧中断后介电恢复过程的初始阶段以鞘层发育为主。本文的目的是模拟考虑离子与背景中性金属蒸气碰撞的真空电弧中断后护套的发展。采用粒子胞-蒙特卡罗碰撞(PIC-MCC)方法，建立了一维鞘层模型。我们假设回收开始时中性金属蒸气、离子和电子分别在0.2eV、2eV和3.5eV温度下的麦克斯韦速度分布。结果表明，背景中性金属蒸气密度越大，护套发育完成时间越长。随着TRV上升速率的增大，鞘层发育完井时间加快，随着初始离子密度的增大，鞘层发育完井时间减慢。

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Collision effects on sheath development after interrupting a vacuum arc

Sheath development dominates the initial stage of dielectric recovery process after interrupting a vacuum arc. The objective of this paper is to simulate sheath development after interrupting a vacuum arc considering collision between ions and background neutral metal vapor. We adopted Particle in Cell-Monte Carlo Collisions (PIC-MCC) method and a one-dimensional sheath model was developed. We assumed a Maxwellian velocity distribution for the neutral metal vapor, ions and electrons at temperature 0.2eV, 2eV and 3.5eV at the start of recovery, respectively. The results show that a higher density of background neutral metal vapor tends to increase the completion time of sheath development. Moreover, the completion time of sheath development becomes faster as the rising rate of a TRV increases, and the completion time of sheath development becomes slower as initial ion density increases.

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2011 1st International Conference on Electric Power Equipment - Switching Technology

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