Download This PaperAlkylation of Benzene Using Co2 and H2 Over Znzrox/Zsm-5: The Effect of Y Doping
30 Pages Posted: 20 Aug 2022
Abstract
The increase of CO2 concentration in the atmosphere has caused a serious global climate problem. Aromatics are important intermediates in chemical production, and the utilization of CO2 into aromatic synthesis can not only realize the effective utilization of CO2, but also effectively achieve carbon emission reduction. Herein, a bifunctional catalyst prepared by physically mixing Y-doped ZnZrOx metal oxide with zeolite ZSM-5 was applied to the synthesis of toluene and xylene by the alkylation of benzene using CO2 and H2. The bifunctional catalyst Y0.1/ZSM-5 showed the best reaction performance. 17.3% conversion of CO2, 30.8% conversion of benzene, 71.6% selectivity of toluene and xylene were achieved. And 96.8% of the liquid phase products were toluene and xylene. On the basis of CO2-TPD, H2-D2 exchange, H2-TPR, EPR, XPS and in situ DRIFTS results, a small amount of Y doping can effectively increase more oxygen vacancies on the surface of ZnZrOx to promote CO2 adsorption and activation. The activation of hydrogen was enhanced resuling from Y-Zn interaction. In the reaction pathway, Y doping accelerated the conversion of CO2 to HCOO* species to promote the reaction process, allowing more methanol to participate in the benzene alkylation reaction and further improving the CO2 and benzene conversion.
Keywords: CO2 hydrogenation, Y-doping, ZnZrOx, benzene alkylation, bifunctional catalyst
Suggested Citation: Suggested Citation