Title :
Corona discharges experiments in water and transition to subsonic discharges
Author :
Martin, J. ; De Ferron, A. ; Reess, T. ; Ruscassié, R. ; Rey-Bethbeder, F.
Author_Institution :
Univ. of Pau, Pau, France
Abstract :
This paper discusses the influence of the discharge current on the compressive shock waves generated by supersonic and subsonic discharges in water gap. The two different ways leading to dielectric breakdown in a water gap will be investigated. The transition phase between the two breakdown modes depends on the electric field and the electrical energy switched. The shock waves associated to breakdowns in water gap will be studied. Whatever the water breakdown mode will be, the peak pressure linearly depends from the peak current. For a constant peak current, the peak pressure value increases with increasing gap length. Moreover, the electro-acoustic efficiency is better using a supersonic discharge.
Keywords :
acoustoelectric effects; corona; plasma shock waves; water; H2O; compressive shock waves; corona discharges; dielectric breakdown; discharge current; electric field; electrical energy; electroacoustic efficiency; gap length; peak current; peak pressure; subsonic discharges; supersonic discharge; transition phase; water breakdown mode; water gap; Corona; Discharges; Electric fields; Mathematical model; Shock waves; Water heating; dynamic pressure wave; electrical discharges in water; electro-acoustic efficiency; subsonic and supersonic discharges;
Conference_Titel :
Dielectric Liquids (ICDL), 2011 IEEE International Conference on
Conference_Location :
Trondheim
Print_ISBN :
978-1-4244-7352-6
Electronic_ISBN :
2153-3725
DOI :
10.1109/ICDL.2011.6015410
