Impulse breakdown delay in liquid dielectrics

Author(s)

Jadidian, Jouya; Zahn, Markus; Lavesson, Nils; Widlund, Ola; Borg, Karl

Abstract

Theoretical images of streamers, revealing the mechanisms behind impulse breakdown in liquid dielectrics, are presented. Streamers lead to electrical breakdown by forming paths, capable of carrying large current amplitudes between electrodes. Breakdown delays and terminal currents are calculated for various electrode geometries (40 μm needle and 6.35 mm sphere) and gap distances (up to 10 mm). Modeling results indicate that the breakdown in needle-needle electrodes requires higher impulse voltage amplitudes than in needle-sphere electrodes for the same gap distances. Streamers in needle-sphere geometries are about 50% thicker than streamers propagating in needle-needle geometries under similar impulse voltage amplitudes.

Date issued

2012-05

URI

http://hdl.handle.net/1721.1/79377

Department

Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science

Journal

Applied Physics Letters

Publisher

American Institute of Physics

Citation

Jadidian, Jouya, Markus Zahn, Nils Lavesson, Ola Widlund, and Karl Borg. Impulse Breakdown Delay in Liquid Dielectrics. Applied Physics Letters 100, no. 19 (2012): 192910.

Version: Original manuscript

ISSN

00036951

1077-3118