J 2006

Numerical modeling of dielectric barrier discharge in neon

JÁNSKÝ, Jaroslav and David TRUNEC

Basic information

Original name

Numerical modeling of dielectric barrier discharge in neon

Name in Czech

Numerické modelování dielektrického bariérového výboje v neonu

Authors

JÁNSKÝ, Jaroslav (203 Czech Republic) and David TRUNEC (203 Czech Republic, guarantor)

Edition

Czechoslovak Journal of Physics, Praha, Springer Netherlands, 2006, 0011-4626

Other information

Language

English

Type of outcome

Článek v odborném periodiku

Field of Study

10305 Fluids and plasma physics

Country of publisher

Czech Republic

Confidentiality degree

není předmětem státního či obchodního tajemství

Impact factor

Impact factor: 0.568

RIV identification code

RIV/00216224:14310/06:00025568

Organization unit

Faculty of Science

UT WoS

000241336500023

Keywords in English

dielectric barrier discharge; neon; modelling

Tags

Tags

International impact, Reviewed
Změněno: 23/6/2009 13:53, prof. RNDr. David Trunec, CSc.

Abstract

ORIG CZ

V originále

Numerical calculations of spatio-temporal characteristics of the breakdown in the dielectric barrier discharge in neon at atmospheric pressure between parallel-plate electrodes were performed using one-dimensional fluid model. The hydrodynamic set of equations (continuity equations with Poisson equation) was solved using the improved Sharfetter-Gummel algorithm combined with the adaptive step Runge{Kutta method. This algorithm allowed the simulation with high gradient of particle density in reasonable time. The time development of ion and electron densities during the avalanche phase and cathode streamer propagation phase was presented. The influence of the parameters of dielectrics on the breakdown was analyzed.

In Czech

Numerical calculations of spatio-temporal characteristics of the breakdown in the dielectric barrier discharge in neon at atmospheric pressure between parallel-plate electrodes were performed using one-dimensional fluid model. The hydrodynamic set of equations (continuity equations with Poisson equation) was solved using the improved Sharfetter-Gummel algorithm combined with the adaptive step Runge{Kutta method. This algorithm allowed the simulation with high gradient of particle density in reasonable time. The time development of ion and electron densities during the avalanche phase and cathode streamer propagation phase was presented. The influence of the parameters of dielectrics on the breakdown was analyzed.

Links

MSM 143100003, plan (intention)
Name: Studium plazmochemických reakcí v neizotermickém nízkoteplotním plazmatu a jeho interakcí s povrchem pevných látek
Investor: Ministry of Education, Youth and Sports of the CR, Study of plasmachemical reactions in non-isothermic low pressure plasma and its interaction with the surface of solid substrates