Title :
Volatile Organic Compound Elimination Improved on Inlet Position of Vortex Gas in Microwave Torch Plasma
Author :
Yong Cheol Hong ; Ji Hun Kim ; Suk Hwal Ma ; Chang Hyun Cho
Author_Institution :
Plasma Technol. Res. Center, Nat. Fusion Res. Inst., Daejeon, South Korea
Abstract :
A simulated experiment on purification of volatile organic compounds (VOCs) was carried out in two vortex flow reactors, which consisted of a microwave plasma torch and a reaction chamber with a fuel injector. One is the reactor with a conventional vortex flow, and the other is with a reverse vortex flow. Injection of hydrocarbon fuels into a high-temperature microwave torch plasma provides a plasma flame. The plasma flame can eliminate the odorous chemical agent diluted in air or purify the contaminated air of a large volume from continuous emission. The reverse vortex reactor eliminated VOCs diluted in an airflow rate of 10000 lpm, showing β-value of 80.39 J/L, while the conventional vortex reactor eliminated VOCs with β-value of 100.26 J/L.
Keywords :
air pollution control; organic compounds; plasma flow; plasma radiofrequency heating; plasma torches; purification; vortices; β-value; VOC; contaminated air; continuous emission; fuel injector; hydrocarbon fuels; inlet position; microwave plasma torch; microwave torch plasma; odorous chemical agent; plasma flame; reaction chamber; reverse vortex reactor; simulated experiment; volatile organic compound elimination; volatile organic compounds purification; vortex flow reactors; vortex gas; Hydrocarbons; Inductors; Oxidation; Plasmas; Pollution measurement; Volatile organic compounds; Microwave plasma; plasma flame; volatile organic compounds (VOCs); vortex flow; vortex flow.;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2014.2327981
