Phenomenological model of pulsed corona reactor

Horváth, Miklós and Kiss, Endre (2007) Phenomenological model of pulsed corona reactor. Pollack Periodica, 2 (Supple). pp. 19-30. ISSN 1788-1994

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Official URL: http://doi.org/10.1556/pollack.2.2007.s.2

Abstract

As it is well known, the non-thermal plasma discharge is an effective way to clean the flue and exhaust gases of hazardous pollutants, like sulphur-oxides, nitrogen-oxides. The decomposition ratio of these substances depends on the gas composition, concentration, energy distribution of fast electrons, and other parameters. For a detailed analysis of the phenomena, the first step is the mathematical description of corona pulses which determines the electric field. The second step is the determination of the electric field distribution inside the reaction chamber. In this paper the authors give an easy model for the pulsed corona current and a simplified model for the electric field by using the corona current and the displacement current pulse shapes. The result of the model is the space and time dependent field distribution, which is suitable for calculating the rate coefficients of chemical reactions.

Item Type: Article
Uncontrolled Keywords: Corona discharge, Pulse shape, Electric field distribution
Divisions: Műszaki Intézet > Természettudományi és Környezetvédelmi Tanszék
Depositing User: Gergely Beregi
Date Deposited: 30 Jun 2021 13:32
Last Modified: 30 Jun 2021 13:32
URI: http://publication.repo.uniduna.hu/id/eprint/826
MTMT: 1998931

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