Examination of OH and H2O2 production by uniform and non-uniform modes of dielectric barrier discharge in He/air mixture

Shurik Yatom; Danil Dobrynin

doi:10.1088/1361-6463/ac95a6

Examination of OH and H₂O₂ production by uniform and non-uniform modes of dielectric barrier discharge in He/air mixture

Shurik Yatom, Danil Dobrynin

PPPL Discovery Plasma Science

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

In this work we have carried out a parametrical study of hydroxyl radical (OH) generation in nanosecond dielectric barrier discharge (DBD) in He/air mixture using a laser-induced fluorescence approach. The foci of the study are the investigation of differences between uniform and non-uniform modes of the discharges and the difference in production of OH and H₂O₂ Nanosecond-time scale imaging of the discharge shows transition from streamer to diffuse mode when applied electric field to the discharge gap approaches ∼90 kV cm⁻¹. The results show that both OH production in the gas phase and downstream H₂O₂ delivery rates to liquid depend on the discharge mode operation and are respectively 30% and 3 times higher for the non-uniform DBD compared to the diffuse discharge.

Original language	English (US)
Article number	485203
Journal	Journal of Physics D: Applied Physics
Volume	55
Issue number	48
DOIs	https://doi.org/10.1088/1361-6463/ac95a6
State	Published - Dec 1 2022

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Acoustics and Ultrasonics
Surfaces, Coatings and Films

Keywords

dielectric barrier discharge
hydrogen peroxide
hydroxyl radical
laser induced fluorescence

Access to Document

10.1088/1361-6463/ac95a6

Cite this

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title = "Examination of OH and H2O2 production by uniform and non-uniform modes of dielectric barrier discharge in He/air mixture",

abstract = "In this work we have carried out a parametrical study of hydroxyl radical (OH) generation in nanosecond dielectric barrier discharge (DBD) in He/air mixture using a laser-induced fluorescence approach. The foci of the study are the investigation of differences between uniform and non-uniform modes of the discharges and the difference in production of OH and H2O2 Nanosecond-time scale imaging of the discharge shows transition from streamer to diffuse mode when applied electric field to the discharge gap approaches ∼90 kV cm−1. The results show that both OH production in the gas phase and downstream H2O2 delivery rates to liquid depend on the discharge mode operation and are respectively 30\% and 3 times higher for the non-uniform DBD compared to the diffuse discharge.",

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author = "Shurik Yatom and Danil Dobrynin",

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T1 - Examination of OH and H2O2 production by uniform and non-uniform modes of dielectric barrier discharge in He/air mixture

AU - Yatom, Shurik

AU - Dobrynin, Danil

PY - 2022/12/1

Y1 - 2022/12/1

N2 - In this work we have carried out a parametrical study of hydroxyl radical (OH) generation in nanosecond dielectric barrier discharge (DBD) in He/air mixture using a laser-induced fluorescence approach. The foci of the study are the investigation of differences between uniform and non-uniform modes of the discharges and the difference in production of OH and H2O2 Nanosecond-time scale imaging of the discharge shows transition from streamer to diffuse mode when applied electric field to the discharge gap approaches ∼90 kV cm−1. The results show that both OH production in the gas phase and downstream H2O2 delivery rates to liquid depend on the discharge mode operation and are respectively 30% and 3 times higher for the non-uniform DBD compared to the diffuse discharge.

AB - In this work we have carried out a parametrical study of hydroxyl radical (OH) generation in nanosecond dielectric barrier discharge (DBD) in He/air mixture using a laser-induced fluorescence approach. The foci of the study are the investigation of differences between uniform and non-uniform modes of the discharges and the difference in production of OH and H2O2 Nanosecond-time scale imaging of the discharge shows transition from streamer to diffuse mode when applied electric field to the discharge gap approaches ∼90 kV cm−1. The results show that both OH production in the gas phase and downstream H2O2 delivery rates to liquid depend on the discharge mode operation and are respectively 30% and 3 times higher for the non-uniform DBD compared to the diffuse discharge.

KW - dielectric barrier discharge

KW - hydrogen peroxide

KW - hydroxyl radical

KW - laser induced fluorescence

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