Numerical Investigation of a Surface Barrier Discharge in Air at Atmospheric Pressure

An extended hydrodynamic model describing the surface dielectric discharge in air is formulated in the paper. Preliminary numerical calculations have been performed demonstrating the formation of a streamer discharge structure in the case of application of a positive potential to the working electro...

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Published in	Russian physics journal Vol. 62; no. 11; pp. 2015 - 2019
Main Authors	Saifutdinova, A. A., Timerkaev, B. A., Saifutdinov, A. I.
Format	Journal Article
Language	English
Published	New York Springer US 01.03.2020 Springer Springer Nature B.V
Subjects	Analysis Condensed Matter Physics Dielectrics Electron density Hadrons Heavy Ions Investigations Lasers Mathematical and Computational Physics Nuclear Physics Numerical analysis Optical Devices Optics Photonics Physics Physics and Astronomy Plasma Streamer gas discharge Theoretical electrode streamer air surface barrier discharge atmospheric pressure
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Abstract	An extended hydrodynamic model describing the surface dielectric discharge in air is formulated in the paper. Preliminary numerical calculations have been performed demonstrating the formation of a streamer discharge structure in the case of application of a positive potential to the working electrode. The dynamics of the electron density and the electric potential for the streamer discharge are presented.
AbstractList	An extended hydrodynamic model describing the surface dielectric discharge in air is formulated in the paper. Preliminary numerical calculations have been performed demonstrating the formation of a streamer discharge structure in the case of application of a positive potential to the working electrode. The dynamics of the electron density and the electric potential for the streamer discharge are presented. An extended hydrodynamic model describing the surface dielectric discharge in air is formulated in the paper. Preliminary numerical calculations have been performed demonstrating the formation of a streamer discharge structure in the case of application of a positive potential to the working electrode. The dynamics of the electron density and the electric potential for the streamer discharge are presented. Keywords: surface barrier discharge, electrode, streamer, air, atmospheric pressure.
Audience	Academic
Author	Saifutdinova, A. A. Timerkaev, B. A. Saifutdinov, A. I.
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References	S. Leonov, V. Gromov, A. Kuriachy, and D. Yarantsev, AIAA Paper No. 2005-0780 (2005). T. C. Corke and M. L. Post, AIAA Paper No. 2005-0563 (2005). SamoilovichVGGibalovVIKozlovKVPhysical Chemistry of a Barrier Discharge [in Russian]1989MoscowMoscow State University Publishing House SaifutdinovAIKustovaEVKarpenkoAGLashkovVAPlasma Phys. Rep.20194566026092019PlPhR..45..602S10.1134/S1063780X19050106 A. P. Kuryachii, D. A. Rus’yanov, V. V. Skvortsov, and S. L. Chernyshev, Izv. Ross. Akad. Nauk. Mekh. Zhidk. Gaza, No. 5, 108–119 (2011). J. P. Boeuf, Y. Lagmich, Th. Callegary, and L. C. Pichford, AIAA Paper No. 183 (2007). V. V. Andreev and L. A. Vasil’eva, Prikl. Fiz., No. 6, 116–122 (2012). SaifutdinovaAAJ. Phys.: Conf. Series2018105801207615 Solov’evVRKonchakovAMKrivtsovVMAleksandrovNLPlasma Phys. Rep.20083475946082008PlPhR..34..594S10.1134/S1063780X08070088 SaifutdinovAISaifutdinovaAATimerkaevBAPlasma Phys. Rep.20184433513602018PlPhR..44..359S10.1134/S1063780X18030066 K. D. Hall, E. J. Jumper, T. C. Corke, and T. E. McLaughlin, AIAA Paper No. 2005-0783 (2005). LikhanskiiAVShneiderMNMacheretSOMilesRBPhys. Plasmas2007140735012007PhPl...14g3501L10.1063/1.2744227 RaizerYPPhysics of a Gas Discharge [in Russian]1987MoscowNauka G. Artana, J. D’Adamo, L. Leger, et al., AIAA Paper No. 2001-0351 (2001). 1938_CR11 1938_CR10 VG Samoilovich (1938_CR7) 1989 AA Saifutdinova (1938_CR13) 2018; 1058 AI Saifutdinov (1938_CR1) 2019; 45 VR Solov’ev (1938_CR6) 2008; 34 AV Likhanskii (1938_CR14) 2007; 14 YP Raizer (1938_CR9) 1987 1938_CR5 1938_CR8 1938_CR2 AI Saifutdinov (1938_CR12) 2018; 44 1938_CR4 1938_CR3
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SubjectTerms	Analysis Condensed Matter Physics Dielectrics Electron density Hadrons Heavy Ions Investigations Lasers Mathematical and Computational Physics Nuclear Physics Numerical analysis Optical Devices Optics Photonics Physics Physics and Astronomy Plasma Streamer gas discharge Theoretical
Title	Numerical Investigation of a Surface Barrier Discharge in Air at Atmospheric Pressure
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