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Nonheating ozone suppression in pulsed air discharges: role of pulse duration and repetition rate

Sanghoo Park, Jinwoo Kim, Hyungyu Lee, Duksun Han, Seungil Park, Seong Bong Kim, Wonho Choe

2021Journal of Physics D Applied Physics23 citationsDOIOpen Access PDF

Abstract

Abstract Facilitating the separate production of ozone (O 3 ) and nitrogen oxides (NO x ) in air discharges without a thermal process is of most merit in diversifying plasma technology; in particular, it is a primary requirement in certain cold, heat-sensitive plasma applications. Here, we propose a new method of nonheating ozone suppression in air discharges. The present work demonstrates that controlling the plasma chemical kinetics by adjusting the duration (width) and/or repetition frequency of the high-voltage DC pulse is effective in suppressing ozone formation in a surface dielectric barrier discharge in static ambient air. The temporal development of each oxygen- and nitrogen-related species in air discharge is complicated and shows different trends in the time range <10 µ s; relatively long-lived O 3 and NO x are strongly governed by the temporal behavior of short-lived reactive species, such as excited N 2 (A) and N 2 ( v ). To quantify time-varying O 3 and NO x , an in situ UV absorption spectroscopy is applied to our gas-tight plasma reactor, which is operated in air at 21 °C. With a fixed frequency at 10 kHz and decreasing pulse duration from 10 μ s to 0.18 μ s, ozone is quenched faster in the plasma reactor, resulting in an irreversible chemical mode transition from an O 3 - to NO-rich environment. From a different set of experiment (with a 200 ns pulse duration and a frequency range of 1–10 kHz), we can conclude that the off-pulse period also plays a crucial role in the temporal evolution of O 3 and NO x ; the larger the applied driving frequency is, the earlier the ozone-free phenomenon appears over the discharge time. Our findings represent a breakthrough in expanding the usage of air discharges and their application in various fields of interest.

Topics & Concepts

OzonePulse repetition frequencyPlasmaPulse durationDielectric barrier dischargeAnalytical Chemistry (journal)Pulse (music)Nonthermal plasmaNOxChemistryExcited stateOxygenMaterials scienceAtomic physicsDielectricVoltageOptoelectronicsOpticsLaserEnvironmental chemistryPhysicsOrganic chemistryCombustionComputer scienceQuantum mechanicsTelecommunicationsRadarPlasma Applications and DiagnosticsPlasma Diagnostics and ApplicationsCatalytic Processes in Materials Science
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