Fast gas heating in nitrogen-oxygen discharge plasma: II. Energy exchange in the afterglow of a volume nanosecond discharge at moderate pressures

E. I. Mintoussov; S. J. Pendleton; F. G. Gerbault; N. A. Popov; S. M. Starikovskaia

doi:10.1088/0022-3727/44/28/285202

Fast gas heating in nitrogen-oxygen discharge plasma: II. Energy exchange in the afterglow of a volume nanosecond discharge at moderate pressures

E. I. Mintoussov
, S. J. Pendleton
, F. G. Gerbault
, N. A. Popov
, S. M. Starikovskaia

University of Southern California
conventionnée avec l'Université d'Orléans
Moscow State University

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

The process of fast gas heating in air in the near afterglow of a pulsed nanosecond spatially uniform discharge has been investigated experimentally and numerically at moderate (3-9 mbar) pressures and high (200-400 Td) reduced electric fields. The temporal behaviour of discharge current, deposited energy, electric field and temperature was measured. The role of processes with participation of excited and charged species was analysed. It was shown that under the considered conditions the main energy release takes place in reactions of nitrogen and oxygen dissociation by electron impact and quenching of electronically excited nitrogen molecules, such as N₂( , B ³Π_g, C ³Π_u, ) by oxygen and quenching of excited O(¹D) atoms by N₂. It was shown that about 24% of the discharge energy goes to fast gas heating during the first tens of microseconds after the discharge.

langue originale	Anglais
Numéro d'article	285202
journal	Journal of Physics D: Applied Physics
Volume	44
Numéro de publication	28
Les DOIs	https://doi.org/10.1088/0022-3727/44/28/285202
état	Publié - 20 juil. 2011

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10.1088/0022-3727/44/28/285202

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@article{cd3d4b01a76b494890ea7f48afa16918,

title = "Fast gas heating in nitrogen-oxygen discharge plasma: II. Energy exchange in the afterglow of a volume nanosecond discharge at moderate pressures",

abstract = "The process of fast gas heating in air in the near afterglow of a pulsed nanosecond spatially uniform discharge has been investigated experimentally and numerically at moderate (3-9 mbar) pressures and high (200-400 Td) reduced electric fields. The temporal behaviour of discharge current, deposited energy, electric field and temperature was measured. The role of processes with participation of excited and charged species was analysed. It was shown that under the considered conditions the main energy release takes place in reactions of nitrogen and oxygen dissociation by electron impact and quenching of electronically excited nitrogen molecules, such as N2( , B 3Πg, C 3Πu, ) by oxygen and quenching of excited O(1D) atoms by N2. It was shown that about 24\% of the discharge energy goes to fast gas heating during the first tens of microseconds after the discharge.",

author = "Mintoussov, \{E. I.\} and Pendleton, \{S. J.\} and Gerbault, \{F. G.\} and Popov, \{N. A.\} and Starikovskaia, \{S. M.\}",

year = "2011",

month = jul,

day = "20",

doi = "10.1088/0022-3727/44/28/285202",

language = "English",

volume = "44",

journal = "Journal of Physics D: Applied Physics",

issn = "0022-3727",

number = "28",

}

Fast gas heating in nitrogen-oxygen discharge plasma: II. Energy exchange in the afterglow of a volume nanosecond discharge at moderate pressures. / Mintoussov, E. I.; Pendleton, S. J.; Gerbault, F. G. et al.
Dans: Journal of Physics D: Applied Physics, Vol 44, Numéro 28, 285202, 20.07.2011.

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

TY - JOUR

T1 - Fast gas heating in nitrogen-oxygen discharge plasma

T2 - II. Energy exchange in the afterglow of a volume nanosecond discharge at moderate pressures

AU - Mintoussov, E. I.

AU - Pendleton, S. J.

AU - Gerbault, F. G.

AU - Popov, N. A.

AU - Starikovskaia, S. M.

PY - 2011/7/20

Y1 - 2011/7/20

N2 - The process of fast gas heating in air in the near afterglow of a pulsed nanosecond spatially uniform discharge has been investigated experimentally and numerically at moderate (3-9 mbar) pressures and high (200-400 Td) reduced electric fields. The temporal behaviour of discharge current, deposited energy, electric field and temperature was measured. The role of processes with participation of excited and charged species was analysed. It was shown that under the considered conditions the main energy release takes place in reactions of nitrogen and oxygen dissociation by electron impact and quenching of electronically excited nitrogen molecules, such as N2( , B 3Πg, C 3Πu, ) by oxygen and quenching of excited O(1D) atoms by N2. It was shown that about 24% of the discharge energy goes to fast gas heating during the first tens of microseconds after the discharge.

AB - The process of fast gas heating in air in the near afterglow of a pulsed nanosecond spatially uniform discharge has been investigated experimentally and numerically at moderate (3-9 mbar) pressures and high (200-400 Td) reduced electric fields. The temporal behaviour of discharge current, deposited energy, electric field and temperature was measured. The role of processes with participation of excited and charged species was analysed. It was shown that under the considered conditions the main energy release takes place in reactions of nitrogen and oxygen dissociation by electron impact and quenching of electronically excited nitrogen molecules, such as N2( , B 3Πg, C 3Πu, ) by oxygen and quenching of excited O(1D) atoms by N2. It was shown that about 24% of the discharge energy goes to fast gas heating during the first tens of microseconds after the discharge.

UR - https://www.scopus.com/pages/publications/79960203461

U2 - 10.1088/0022-3727/44/28/285202

DO - 10.1088/0022-3727/44/28/285202

M3 - Article

AN - SCOPUS:79960203461

SN - 0022-3727

VL - 44

JO - Journal of Physics D: Applied Physics

JF - Journal of Physics D: Applied Physics

IS - 28

M1 - 285202

ER -

Fast gas heating in nitrogen-oxygen discharge plasma: II. Energy exchange in the afterglow of a volume nanosecond discharge at moderate pressures

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