Spatial and time characteristics of short gap, high di/dt discharges

Author

Wilkening, Ernst-Dieter ; Glinkowski, Mietek

Author_Institution

Inst. fuer Elektrische Energieanlagen, Tech. Univ. Braunschweig, Germany

Volume

21

Issue

5

fYear

1993

fDate

10/1/1993 12:00:00 AM

Firstpage

489

Lastpage

493

Abstract

Under certain network conditions, vacuum circuit breakers may generate high-frequency currents. The quenching capability of vacuum circuit breakers for line-frequency currents and high-frequency currents plays an important role in the generation of unwanted voltage transients. This may occur when the gap distance at current zero is still too short to withstand the external voltage to the switch (TRV). The results of simulation calculations regarding these phenomena in the vicinity of current zero are described. Simulations are based on a detailed physical model, taking into consideration the basic conservation laws, the Maxwell equations, and the current continuity. The numerical solution takes into account the results of experimental streak photographs, revealing that the visible discharge covers only a small part of the contact diameter

Keywords

circuit breakers; vacuum insulation; Maxwell equations; TRV; conservation laws; contact diameter; current continuity; current zero; di/dt discharges; gap distance; high-frequency currents; line-frequency currents; network conditions; numerical solution; quenching capability; simulation calculations; spatial characteristics; streak photographs; time characteristics; vacuum circuit breakers; visible discharge; voltage transients; Circuit breakers; Frequency; Plasma density; Plasma devices; Power engineering and energy; Power system transients; Switches; Switching circuits; Vacuum arcs; Voltage;

fLanguage

English

Journal_Title

Plasma Science, IEEE Transactions on

Publisher

ieee

ISSN

0093-3813

Type

jour

DOI

10.1109/27.249632

Filename

249632