Title :
The effect of initial NO content on spark breakdown in high-temperature air
Author :
Aleksandrov, Nickolay L. ; Bazelyan, Eduard M.
Author_Institution :
Dept. of Phys. Mech., Moscow Inst. of Phys. & Technol., Russia
fDate :
10/1/1999 12:00:00 AM
Abstract :
A one and one-half-dimensional simulation of the streamer breakdown in long high-temperature air gaps is performed by using a detailed kinetic model for the ionization processes in heated air in a strong electric field. The breakdown threshold is calculated as a function of the initial gas temperature under the assumption of the “frozen” number of NO and under the assumption of the local-thermodynamic-equilibrium content of NO. The first assumption corresponds to rebreakdown within a post-arc channel cooled down to the temperatures T<3500 K whereas the second one corresponds to the breakdown of slowly heated air. A hysteresis effect in the breakdown threshold that can attain 35% is obtained
Keywords :
air gaps; arcs (electric); hysteresis; ionisation; nitrogen compounds; plasma density; plasma kinetic theory; plasma simulation; plasma temperature; sparks; 3500 K; NO; NO content; breakdown threshold; frozen number; heated air; high-temperature air; hysteresis effect; initial gas temperature; ionization processes; kinetic model; local-thermodynamic-equilibrium content; long high-temperature air gaps; one and one-half-dimensional simulation; post-arc channel; slowly heated air; spark breakdown; streamer breakdown; strong electric field; Air gaps; Breakdown voltage; Circuits; Electric breakdown; Heating; Hysteresis; Ionization; Kinetic theory; Sparks; Temperature;
Journal_Title :
Plasma Science, IEEE Transactions on
