NUMERICAL SIMULATION OF PULSE-PERIODIC NANOSECOND ELECTRIC DISCHARGE IN AIR

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Abstract

The results of the numerical simulation of a pulse-periodic nanosecond discharge are presented. An axisymmetric high-frequency (5 MHz) electric discharge in a pin-to-pin configuration is considered. Numerical models are used that take into account the chemical kinetics of high-temperature air and plasma chemistry, in which the reaction rates are determined by the magnitude of the reduced electric field. Preliminary results of plasma activation of atmospheric pressure air by a pulse-periodic nanosecond discharge are presented in order to intensify the production of chemically active particles (by the example of atomic oxygen).

About the authors

V. A. Bityurin

Joint Institute for High Temperatures, Russian Academy of Sciences

Moscow, 125412 Russia

A. N. Bocharov

Joint Institute for High Temperatures, Russian Academy of Sciences

Email: bocharov@ihed.ras.ru
Moscow, 125412 Russia

A. S. Dobrovol’skaya

Joint Institute for High Temperatures, Russian Academy of Sciences

Moscow, 125412 Russia

N. A. Popov

Joint Institute for High Temperatures, Russian Academy of Sciences

Moscow, 125412 Russia

E. A. Filimonova

Joint Institute for High Temperatures, Russian Academy of Sciences

Moscow, 125412 Russia

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