Simulation study of a pulsed DBD with an electrode containing charge injector parts

By using a multispecies fluid model, the tunability and controllability of plasma parameters such as distributions of electron density, electron energy, ion density, and electric field in a microdielectric barrier discharge (DBD) with a charge injector electrode and driven by negatively polarized na...

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Veröffentlicht in:	Physics of plasmas 2021-01, Vol.28 (1)
Hauptverfasser:	Pourali, N., Sarafraz, M. M., Hessel, V., Rebrov, E. V.
Format:	Artikel
Sprache:	eng
Schlagworte:	Argon Argon plasma Controllability Electric fields Electric potential Electrodes Electron density Electron energy Exhaust gases Injectors Ion density (concentration) Parameters Plasma Plasma physics Pulse duration Stability Voltage
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container_title	Physics of plasmas
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creator	Pourali, N. Sarafraz, M. M. Hessel, V. Rebrov, E. V.
description	By using a multispecies fluid model, the tunability and controllability of plasma parameters such as distributions of electron density, electron energy, ion density, and electric field in a microdielectric barrier discharge (DBD) with a charge injector electrode and driven by negatively polarized nanosecond pulsed voltage superimposed on a positive DC bias voltage are investigated. To this end, the effects of changing features of pulsed voltage like pulse rise time (10–20 ns), pulse peak width (10–15 ns), and pulse fall time (20–30 ns) on characteristics of argon plasma formed inside the reactor are studied. The results show that with the increase in pulse width and pulse rise time, the density of electron and ion increases, while fall time change does not significantly affect the plasma parameters. Generally, the results of this study explicitly prove the possibility of controlling plasma formed inside DBD reactors driven by negative pulse voltage combined with a positive DC voltage, which is very important in waste gas conversion applications.
doi_str_mv	10.1063/5.0027562
format	Article
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source	AIP Journals Complete; Alma/SFX Local Collection
subjects	Argon Argon plasma Controllability Electric fields Electric potential Electrodes Electron density Electron energy Exhaust gases Injectors Ion density (concentration) Parameters Plasma Plasma physics Pulse duration Stability Voltage
title	Simulation study of a pulsed DBD with an electrode containing charge injector parts
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