R. Hrach scite author profile

The reaction of methane in the nitrogen afterglow is studied by combination of direct measurements and computer experiment. Theexperimental data were obtained by optical emission spectroscopy of the discharge, by gas chromatography of resulting stable products and by probe diagnostics of charged species in afterglow plasma. The simulation was based on a macroscopic kinetic approach covering 24 species and 61 reactions with input data given by the afterglow experiment. In the present stage of the modelling the initiation of methane conversion was studied. It was found that, contrary to active discharge, in the afterglow plasma the active neutral species (mainly excited dinitrogen molecules) are most important for the dissociation of methane into CH, and H radicals.

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Influence of C atom concentration for acetylene production in a CH4/N2 afterglow

Diamy¹,

Hrach

Hrachová

et al. 2001

Vacuum

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Gunn

Devynck

Pascal

et al. 2002

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R. Hrach

Kinetics of reactions in afterglow plasma

Mechanisms of methane decomposition in nitrogen afterglow plasma

Methane Conversion in the Flowing Afterglow of a Dinitrogen Microwave Plasma: Initiation of the Reaction

Influence of C atom concentration for acetylene production in a CH4/N2 afterglow

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