CARS Diagnostic and Modeling of a Dielectric Barrier Discharge |
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Authors: | Baeva M. Dogan A. Ehlbeck J. Pott A. Uhlenbusch J. |
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Affiliation: | (1) Institut für Laser- und Plasmaphysik, Heinrich-Heine-Univerisität, Düsseldorf, Universitätsstr. 1, D-40225 Düsseldorf, Germany;(2) Institut für Niedertemperatur-Plasmaphysik e.V., Robert-Blum-Str. 8–10, D-17489 Greifswald, Germany |
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Abstract: | Dielectric barrier discharges (DBD) with planar- and knife-shaped electrodes are operated in N2O2NO mixtures under a pressure of 20 and 98 kPa. They are excited by means of consecutive unipolar or bipolar high-voltage pulse packages of 10 kV at a pulse repetition rate of 1 and 2 kHz. The rotational and vibrational excitation of N2molecules and the reduction of nitric oxide (NO) in the discharge have been investigated using coherent anti-Stokes Raman scattering (CARS) technique. Rotational (gas) temperatures near the room temperature and vibrational temperatures of about 800 K at atmospheric pressure and 1400 K at a pressure of 20 kPa are observed. Therefore, chemical reactions of NO with vibrationally excited N2are probably insignificant. One-dimensional kinetic models are developed that balance 35 chemical reactions between 10 species and deliver equations for the population density of excited vibrational levels of N2together with a solution of the Boltzmann equation for the electrons. A good agreement between measured vibrational temperatures of N2, the concentration of NO, and calculated data is achieved. Modeling of the plasma discharge verifies that a DBD operated with a N2NO mixture reduces the NO content, the simultaneous presence of O2, already 1%, is enough to prevent the NO reduction. |
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Keywords: | Dielectric barrier discharge CARS on N2 and NO NO reduction chemical and vibrational kinetics modeling |
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