Fast gas heating in a nitrogen-oxygen discharge plasma: I. Kinetic mechanismстатья
Статья опубликована в высокорейтинговом журнале
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Дата последнего поиска статьи во внешних источниках: 18 июля 2013 г.
Аннотация:A model of fast heating of nitrogen–oxygen mixtures excited by a gas discharge in a broad
range of reduced electric fields E/N is presented. It is shown that in air at E/N < 200 Td the main contribution to gas heating occurs due to dissociation reactions by electron impact of O2 molecules and due to processes of quenching of electronically excited N2(B 3Пg, C3Пu, a1'Sigu) molecules by oxygen and excited O(1D) atoms by nitrogen. At E/N > 400 Td, dissociation reactions by electron impact of N2 molecules are dominant as well as the
processes involving charged particles. The fraction of discharge energy converted to fast gas heating does not exceed 40%. An analysis of the experimental data on fast air heating in
discharges at high reduced electric fields E/N is given.
It was shown that, in a broad range of reduced electric fields, a fixed fraction of discharge power ηE spent on the excitation of electronic degrees of freedom, ionization and dissociation of molecules is converted to fast heating of nitrogen–oxygen mixtures. In air, the value of ηE is about 30 ± 3%. The value of ηE diminishes with decreasing share of oxygen in a mixture. The significant role of heat release in the pooling reactions of N2(A 3Sig,v) molecules for fast gas heating in pure nitrogen and in nitrogen with small admixtures of oxygen is demonstrated. The simulation results agree with experimental data at E/N < 200 Td within the range of oxygen content δ = 0–20%.