Title :
Modeling laboratory negative long spark discharges
Author :
Beroual, A. ; Rakotonandrasana, J.H. ; Fofana, I.
Author_Institution :
Lab. AMPERE UMR, Ecole Centrale de Lyon, Ecully, France
Abstract :
This paper is aimed at comparing some results derived from a self consistent model developed to simulate dynamically the successive phases of negative laboratory long spark with experimental results reported elsewhere. This model includes criteria for instabilities and arrest conditions. Two point-plane air gaps are considered, let be 5 m and 7 m submitted to 320/10000 ¿s wave voltage; the crest value of voltage being 3.0 MV. A good accordance is found between the simulated spatial and temporal evolution of the whole negative discharge and the associated macroscopic parameters (current and electrical charge, power and energy injected into the gap, velocity...), and the experimental results.
Keywords :
electrodes; plasma instability; plasma simulation; sparks; distance 5 m; distance 7 m; laboratory spark discharge; negative discharge spatial evolution; negative discharge temporal evolution; negative long spark discharge; point-plane air gaps; self consistent model; spark arrest conditions; spark discharge modeling; spark instability conditions; spark macroscopic parameters; voltage 3.0 MV; Air gaps; Atmospheric modeling; Capacitance; Electrodes; Geometry; Laboratories; Mathematical model; Solid modeling; Sparks; Voltage;
Conference_Titel :
Electrical Insulation and Dielectric Phenomena, 2009. CEIDP '09. IEEE Conference on
Conference_Location :
Virginia Beach, VA
Print_ISBN :
978-1-4244-4557-8
Electronic_ISBN :
0084-9162
DOI :
10.1109/CEIDP.2009.5377846
