The flashover in vacuum is a rapid interfacial discharge across the insulator surface when subjected to high applied voltage. Here a theoretical model covering above-surface processes is introduced. The model calculates the flashover threshold in vacuum, with revised secondary electron emission avalanche theory and improved desorbed neutral transport model. The model serves as the first part of an integrated flashover model, aiming for consistent treatment of both above-surface and subsurface processes during the entire flashover development. The flashover threshold is obtained by combining the desorbed neutral pressure at given applied voltage and the gas breakdown criterion dictated by the Paschen’s law. An analytical formula for threshol...
Results of the analysis of dynamic behavior of flashover phenomenon on the high voltage-polluted ins...
Glass insulators, due to its diverse characteristics, were used widely around the world for high vol...
Massachusetts Institute of Technology. Dept. of Electrical Engineering. Thesis. 1974. Sc.D.MICROFICH...
Vacuum insulators are critical components in many pulsed power systems. The insulators separate the ...
Pre-breakdown current traces obtained during high pressure gas breakdown and vacuum surface flashove...
We have developed a statistical model for the flashover of a 45° vacuum-insulator interface (such as...
International audienceThis paper is aimed at the propagation of discharges over a surface of insulat...
This paper introduces a complementary criterion for flashover (FOV) of polluted insulators based on ...
High voltage insulation is one of the main areas of pulsed power research and development since the ...
Abstract—Before flashover across an insulator under high elec-tric field in vacuum, there are chargi...
The surface flashover strength of cylindrical and conical solid insulators has been investigated in ...
Previous research and theories about surface flashover in vacuum indicate that the triple junction r...
The aim of this paper is the presentation of an analytical model of insulator flashover and its appl...
Surface flashover in compressed-gas insulated systems is a much studied, but poorly explained phenom...
The appreciable number of flashover of polluted insulators, energised with DC voltage, has motivated...
Results of the analysis of dynamic behavior of flashover phenomenon on the high voltage-polluted ins...
Glass insulators, due to its diverse characteristics, were used widely around the world for high vol...
Massachusetts Institute of Technology. Dept. of Electrical Engineering. Thesis. 1974. Sc.D.MICROFICH...
Vacuum insulators are critical components in many pulsed power systems. The insulators separate the ...
Pre-breakdown current traces obtained during high pressure gas breakdown and vacuum surface flashove...
We have developed a statistical model for the flashover of a 45° vacuum-insulator interface (such as...
International audienceThis paper is aimed at the propagation of discharges over a surface of insulat...
This paper introduces a complementary criterion for flashover (FOV) of polluted insulators based on ...
High voltage insulation is one of the main areas of pulsed power research and development since the ...
Abstract—Before flashover across an insulator under high elec-tric field in vacuum, there are chargi...
The surface flashover strength of cylindrical and conical solid insulators has been investigated in ...
Previous research and theories about surface flashover in vacuum indicate that the triple junction r...
The aim of this paper is the presentation of an analytical model of insulator flashover and its appl...
Surface flashover in compressed-gas insulated systems is a much studied, but poorly explained phenom...
The appreciable number of flashover of polluted insulators, energised with DC voltage, has motivated...
Results of the analysis of dynamic behavior of flashover phenomenon on the high voltage-polluted ins...
Glass insulators, due to its diverse characteristics, were used widely around the world for high vol...
Massachusetts Institute of Technology. Dept. of Electrical Engineering. Thesis. 1974. Sc.D.MICROFICH...