Effect 3A and 5A molecular sieve on alcohol-assisted methanol synthesis from CO_2 and H_2 over Cu/ZnO catalyst

摘要

Low-temperature methanol synthesis from CO2 and H-2 was carried out using ethanol as a catalytic solvent. The alcohol-assisted method reduced synthesis temperature and enhanced methanol yield (33.80%) at 150 degrees C (5.0 MPa, Cu/ZnO catalyst). However, ethyl acetate and water were generated as byproducts from the reaction. The byproducts formed azeotrope mixture with methanol and led to a complex product purification. Therefore, in this study, molecular sieves (MS) were introduced to adsorb the byproducts. The effect of different MS (3A and 5A) was studied. It was found that MS helped enhancing methanol yield. The highest methanol yield (42.8%) was obtained when adding MS_3A to adsorb water. The MS_5A could separate methanol and ethyl acetate, providing high methanol purity. The effect of operating conditions was also investigated. When reducing temperature to 130 degrees C, methanol yield decreased but methanol selectivity (98%) significantly increased. Controlling temperature and using MS could help enhance the yield and selectivity of methanol. (C) 2021 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.