research article

Surface DBD degradation in humid air, and a hybrid surface-volume DBD for robust plasma operation at high humidity

Avino, F.  
Howling, A. A.  
Von Allmen, M.
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August 24, 2023
Journal Of Physics D-Applied Physics

Surface dielectric barrier discharge performance deteriorates in humid air, with permanent and/or reversible degradation of its components. Plasma operation in a humid environment is unavoidable when humid air or water-containing materials are treated. Experimental and numerical results indicate that an electrically conductive thin film of water is responsible for ohmic dissipation and inhibited plasma ignition at high relative humidity. An alternative hybrid surface-volume dielectric barrier discharge design provides more stable and uniform plasma operation in high-humidity atmospheres.

Type
research article
DOI
10.1088/1361-6463/acd2e4
Web of Science ID

WOS:000990383300001

Author(s)
Avino, F.  
Howling, A. A.  
Von Allmen, M.
Waskow, A.  
Ibba, L.  
Han, J.  
Furno, I  
Date Issued

2023-08-24

Publisher

IOP Publishing Ltd

Published in
Journal Of Physics D-Applied Physics
Volume

56

Issue

34

Article Number

345201

Subjects

Physics, Applied

Physics

dbd

degradations

humid

hybrid

surface-volume

relative-humidity

water

conductivity

adsorption

frequency

growth

gases

Editorial or Peer reviewed

REVIEWED

Written at

EPFL

EPFL units
SPC  
Available on Infoscience
June 5, 2023
Use this identifier to reference this record
https://infoscience.epfl.ch/handle/20.500.14299/197904