Accession Number : ADA256240


Title :   A Quasi-Equilibrium Kinetic Model of HF Air Breakdown


Descriptive Note : Final rept. Feb-Sep 1991


Corporate Author : TETRA CORP ALBUQUERQUE NM


Personal Author(s) : Rodriguez, A E ; White, M G


Full Text : https://apps.dtic.mil/dtic/tr/fulltext/u2/a256240.pdf


Report Date : Sep 1991


Pagination or Media Count : 80


Abstract : In Phase I of the program, we developed the basic tools needed to build a high-frequency air breakdown model. We developed a Quasi-Equilibrium Methodology (QEM) for extending fluid electron transport models to the nonequilibrium regime, based on assuming that the transport coefficients relax toward their equilibrium values on time scales quantified by time-dependent Boltzmann equation solutions. Our analysis of nonequilibrium electron transport discovered and explained a velocity overshoot effect that is not generally known. That tendency of the electrons to overshoot the equilibrium drift velocity is shown to have a profound effect on streamer behavior. We examined the extent of possible simplifications to our kinetic air breakdown model, concluding that factors of 2 to 5 speed-up are possible. We have identified the major phenomenological issues in a modeling strategy, and examined nonequilibrium effects on ionization waves. Finally, we present a plan to complete development of a computational model of High Frequency air breakdown suitable for incorporation into EMP coupling codes, including model verification experiments and implementation of the computer module in an existing EMP coupling code. Dielectric breakdown, Kinetics, Boltzmann equation, Non- equilibrium transport, Streamers, Spark, Arc, HF discharge.


Descriptors :   *HIGH FREQUENCY , *AIR , *KINETICS , VELOCITY , FREQUENCY , VERIFICATION , TOOLS , DIELECTRICS , TIME , DRIFT , WAVES , EQUATIONS , VALUE , BEHAVIOR , SPARKS , FLUIDS , IONIZATION , TRANSPORT , COEFFICIENTS , COUPLINGS , ELECTROMAGNETIC PULSES , BOLTZMANN EQUATION , ELECTRONS , PHASE , ELECTRON TRANSPORT , COMPUTERS , MODELS , STRATEGY , METHODOLOGY


Subject Categories : Physical Chemistry
      Electricity and Magnetism
      Nuclear Physics & Elementary Particle Physics


Distribution Statement : APPROVED FOR PUBLIC RELEASE