The effects of applied voltage, pulse frequency, flow rate and permittivity of dielectric material on the concentration of O3 and NO 2in a Dielectric Barrier Discharge (DBD) air plasma jet are experimentally investigated for industrial applications. Furthermore, the production and decay processes of chemical species and also time dependent chemical species concentration field in a DBD discharge region are numerically analyzed by integrated chemical reaction model with thermofluid flow field. There is a reasonable agreement of O3and NO2concentration with experimental data.
|Number of pages
|International Journal of Emerging Multidisciplinary Fluid Sciences
|Published - 2009 Jun 1