【摘 要】
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In terms of the reaction of CO2 reduction to CO with hydrogen,CO2 conversion is very low at low temperature due to the limitation of thermodynamic equilibrium (TE).To overcome this limitation,plasma catalytic reduction of CO2 to CO in a catalyst-filled di
【机 构】
:
Laboratory of Plasma Physical Chemistry, Center for Hydrogen Energy and Liquid Fuels, Dalian Univers
论文部分内容阅读
In terms of the reaction of CO2 reduction to CO with hydrogen,CO2 conversion is very low at low temperature due to the limitation of thermodynamic equilibrium (TE).To overcome this limitation,plasma catalytic reduction of CO2 to CO in a catalyst-filled dielectric barrier discharge (DBD) reactor is studied.An enhanced effect of plasma on the reaction over Au/CeO2 catalysts is observed.For both the conventionally catalytic (CC) and plasma catalytic (PC,Pin =15 W) reactions under conditions of 400 ℃,H2/CO2 =1,200 SCCM,GHSV=12,000 mL.g-1cat·h-1,CO2 conversions over Au/CeO2 reach 15.4% and 25.5% due to the presence of Au,respectively,however,those over CeO2 are extremely low and negligible.Moreover,CO2 conversion over Au/CeO2 in the PC reaction exceeds 22.4% of the TE conversion.Surface intermediate species formed on the catalyst samples during the reactions are determined by in-situ temperatureprogrammed decomposition (TPD) technique.Interestingly,it disclosed that in the PC reaction,the formation of formate intermediate is enhanced by plasma,and the acceleration by plasma in the decomposition of formate species is much greater than that in the formation of formate species on Au/CeO2.Enhancement factor is introduced to quantify the enhanced effect of plasma.Lower reactor temperature,higher gas hourly space velocity (GHSV),and lower molar ratio of H2/CO2 would be associated with larger enhancement factor.
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