Model of Arc Root Immobility in Vacuum Circuit Breakers

2006 International Symposium on Discharges and Electrical Insulation in Vacuum Pub Date : 2006-09-01 DOI:10.1109/DEIV.2006.357323

S. Kharin, H. Nouri, B. Miedzinski

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Abstract

The model of arc evolution and instability in vacuum based on the dynamics of arc root is presented in this paper. It takes into account parameters of electrical circuit, properties of contact material, heating, melting and evaporation during interaction of arc with the electrode surface. It is shown that arc root immobility is conditioned by dynamics of contact evaporation and rise of arc resistivity which depends on the vapor density in the arc and entails arc instability at certain critical current. The time and the critical contact distance of arc root immobility are found from the conditions defining the change of the direction of heat fluxes into arc for the opposite vector. Phenomenon of arc-to glow transition in low current inductive electrical circuits in vacuum due to arc instability is considered as a special case. The conditions required for this transition are obtained in dependence of contact material properties, characteristics of an electrical circuit, opening velocity and gas pressure. Special experiments with arc-to-glow transition have been carried out to verify obtained theoretical results

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真空断路器电弧根不动性模型

本文建立了基于电弧根动力学的真空电弧演化和不稳定模型。考虑了电弧与电极表面相互作用时的电路参数、接触材料的性质、加热、熔化和蒸发等因素。结果表明，电弧根部不动是由接触蒸发动力学和电弧电阻率上升决定的，而电弧电阻率的上升取决于电弧中的蒸气密度，在一定的临界电流下电弧不稳定。从确定热通量方向在相反矢量上转变为电弧的条件出发，求出了弧根不动的时间和临界接触距离。在真空环境下，小电流电感电路中由于电弧不稳定而产生的电弧-辉光转变现象是一种特例。这种转变所需的条件取决于触点材料的特性、电路的特性、开启速度和气体压力。为了验证所得到的理论结果，还进行了专门的电弧-辉光转换实验

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2006 International Symposium on Discharges and Electrical Insulation in Vacuum

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