Journal Abbreviation : ‘J. Odor Indoor Environ.’ Frequency : Quarterly Doi Prefix : 10.15250/joie. ISSN : 2288-9167 (Print) / 2288-923X (Online) Year of Launching : 2014 Publisher : Korean Society of Odor Research and Engineering & Korean Society for Indoor Environment Indexed/Tracked/Covered By :
This study attempted to decompose typical odorous VOCs including toluene, isopropyl alcohol, benzene and acetone using a dielectric barrier discharge plasma in a pilot experiment scale up to 60 m3/min. It utilized oxygen ions(205,000 ions/cm3) and various radicals formed by a plasma generator. Although ozone as a byproduct(approximately 300 ppb) contributes to destroying organic compounds in their gas phase, the residual release could be captured by post manganese filters showing a maximum 30% removal. The present process was more effective for acetone, which is composed of relatively simple molecules, with a 56% decomposition rate. Whilst toluene, benzene and isopropyl alcohol were shown to have of rates of 19%, 37% and 36% respectively.