Title :
Conversion of Nitrogen and Carbon Oxides by the Atmospheric Hollow Cathode Discharges
Author :
Baránková, Hana ; Bárdos, Ladislav
Author_Institution :
Plasma Group, Uppsala Univ., Uppsala, Sweden
fDate :
5/1/2012 12:00:00 AM
Abstract :
We have successfully tested the fused hollow cathode with aerodynamic stabilization as a 100% oxidation catalyst in conversion of NOx in air mixtures. Plasma chemical kinetics and the processing window width are controlled by plasma characteristics. Results show that, besides the plasma source design itself, the material of the electrodes plays a crucial role. It was found that, by using graphite electrodes, a 100% removal of NO from the air mixtures is possible without necessity of adding hydrocarbons. This paper presents results of oxygen screening, discusses the mechanisms of the process, and reports also on the CO2 reduction in some discharge regimes.
Keywords :
air; carbon compounds; catalysts; glow discharges; graphite; mixtures; nitrogen; oxidation; plasma chemistry; plasma instability; plasma sources; reduction (chemical); CO2; N2; aerodynamic stabilization; air mixture; atmospheric hollow cathode discharge; fused hollow cathode; graphite electrodes; oxidation catalyst; plasma chemical kinetics; plasma source; Carbon; Cathodes; Discharges; Materials; Plasma sources; Fused hollow cathode (FHC); nonequilibrium atmospheric plasma; plasma conversion of $hbox{NO}_{x}$; plasma reduction of $hbox{CO}_{2}$; pulsed hollow cathode;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2011.2176146
