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Article Dans Une Revue Journal of Applied Physics Année : 2013

Electro-hydrodynamics and kinetic modelling of polluted air flow activated by multi-tip-to-plane corona discharge

Mohamed Meziane
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  • IdRef : 161351921
Olivier Eichwald
J.-P. Sarrette
Olivier Ducasse
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  • PersonId : 1174813
Mohammed Yousfi
Frédéric Marchal

Résumé

The present paper is devoted to the 2D simulation of an Atmospheric Corona Discharge Reactor (ACDR) involving 10 pins powered by a DC high voltage and positioned 7 mm above a grounded metallic plane. The corona reactor is periodically crossed by thin mono filamentary streamers with a natural repetition frequency of some tens of kHz. The simulation involves the electro-dynamic, chemical kinetic, and neutral gas hydrodynamic phenomena that influence the kinetics of the chemical species transformation. Each discharge stage (including the primary and the secondary streamers development and the resulting thermal shock) lasts about one hundred nanoseconds while the post-discharge stages occurring between two successive discharge phases last one hundred microseconds. The ACDR is crossed by a lateral air flow including 400 ppm of NO. During the considered time scale of 10 ms, one hundred discharge/post-discharge cycles are simulated. The simulation involves the radical formation and thermal exchange between the discharges and the background gas. The results show how the successive discharges activate the flow gas and how the induced turbulence phenomena affect the redistribution of the thermal energy and the chemical kinetics inside the ACDR.

Dates et versions

hal-03270394 , version 1 (24-06-2021)

Identifiants

Citer

Mohamed Meziane, Olivier Eichwald, J.-P. Sarrette, Olivier Ducasse, Mohammed Yousfi, et al.. Electro-hydrodynamics and kinetic modelling of polluted air flow activated by multi-tip-to-plane corona discharge. Journal of Applied Physics, 2013, 113 (15), pp.153302. ⟨10.1063/1.4801879⟩. ⟨hal-03270394⟩
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