Catalytic performance of calcium oxide-modified copper- Zinc-alumina catalysts in methanol synthesis from CO2 hydrogenation

Abstract. Proposed as a carbon utilization method, the catalytic hydrogenation with carbon dioxide (CO2) as feedstock to produce methanol is a viable approach for utilizing excess CO2 and countering climate change. The current work aims to enhance methanol production from CO2 hydrogenation over a CaO-promoted Cu/ZnO-based catalyst supported on Al2O3. The catalysts, prepared via impregnation method with 10 wt.% active metal loading and 1.0 wt% CaO promoter, were analyzed for physicochemical properties using N2 physical adsorption-desorption and XRD. It was found that the addition of a CaO promoter improved the textural properties of the catalyst, where a larger BET surface area (214.9 m2/g) and smaller crystallite size (7.76 nm) were obtained. The 1.0 wt% CaO-promoted catalyst showed the highest CO2 conversion (19.14%) and methanol yield (4.66%) due to its excellent textural properties and enhanced basicity.

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