Abstract
This paper reports toluene decomposition with a dielectric barrier discharge (DBD) and a catalyst bed reactor in air at atmospheric pressure. Three Ag-based composite oxide catalysts are used to recycle O radicals for toluene decomposition and ozone decomposition. Toluene is not only oxidized inside the DBD non-thermal plasma (NTP) reactor by active species but also within the catalyst bed reactor via ozone to O radical conversion. Moreover, the DBD generated intermediate byproducts, such as CO, formic acid and formaldehyde, are simultaneously oxidized by the post catalysis. At a DBD specific energy density of 60J/L, toluene decomposition efficiencies by the DBD and the DBD with the catalyst bed reactor are about 62% and 100%, respectively. In terms of toluene and/or ozone decomposition efficiencies, their chemical reactivity is in the order of NTP+Ag–Mn–O≈NTP+Ag–Co–O>NTP+Ag–Ce–O>NTP. The plasma and catalyst hybrid reactor always shows a better performance in comparison with either NTP or chemical catalysis alone.
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