Air trichloroethylene oxidation in a corona plasma-catalytic reactor

Air trichloroethylene oxidation in a corona plasma-catalytic reactor

The oxidative decomposition of trichloroethylene (TCE; 300 ppm) by non-thermal corona plasma was investigated in dry air at atmospheric pressure and room temperature, both in the absence and presence of catalysts including MnOx, CoOx. The catalysts were synthesized by a co-precipitation method. The...

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Veröffentlicht in:International Journal of Modern Physics: Conference Series 2014, Vol.32, p.1460346
Hauptverfasser: Masoomi-Godarzi, S., Ranji-Burachaloo, H., Khodadadi, A. A., Vesali-Naseh, M., Mortazavi, Y.
Format: Artikel
Sprache:eng
Schlagworte:
Catalysis
Catalysts
Chemical synthesis
Cobalt oxides
Coprecipitation
Decomposition
Decomposition reactions
Fourier transforms
Gas chromatography
Infrared spectroscopy
Morphology
Oxidation
Plasma
Selectivity
Trichloroethylene
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Zusammenfassung:The oxidative decomposition of trichloroethylene (TCE; 300 ppm) by non-thermal corona plasma was investigated in dry air at atmospheric pressure and room temperature, both in the absence and presence of catalysts including MnOx, CoOx. The catalysts were synthesized by a co-precipitation method. The morphology and structure of the catalysts were characterized by BET surface area measurement and Fourier Transform Infrared (FTIR) methods. Decomposition of TCE and distribution of products were evaluated by a gas chromatograph (GC) and an FTIR. In the absence of the catalyst, TCE removal is increased with increases in the applied voltage and current intensity. Higher TCE removal and CO2 selectivity is observed in presence of the corona and catalysts, as compared to those with the plasma alone. The results show that MnOx and CoOx catalysts can dissociate the in-plasma produced ozone to oxygen radicals, which enhances the TCE decomposition.
ISSN:2010-1945
2010-1945
DOI:10.1142/S2010194514603469