Abstract
CO2 capture from flue gas using the amine-based post-combustion technique is costly because of the high energy requirement for solvent regeneration. The addition of catalyst to the regeneration step can overcome this drawback. In this study, we investigate the regeneration performance of CO2-rich MEA solution without and with two solid metal oxide catalysts—ZrO2 and ZnO—within a temperature range of 40–86 °C. The solvent regeneration performance was evaluated in terms of CO2 desorption rate, total amount of desorbed CO2, solvent cyclic capacity, and CO2-lean loadings achieved from the catalytic solutions in comparison with the noncatalytic MEA solution. To understand and support the obtained results BET, NH3–TPD, pyridine–FTIR, and 13C NMR characterization techniques are performed. The obtained results suggest that both catalysts are capable of optimizing the solvent regeneration by desorbing up to 32% greater amounts of CO2, improving the CO2 desorption rate up to 54%, and increasing the solvent cyclic c...
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