A review of CO2 catalytic regeneration research based on MEA solution

Abstract: In recent years, the rapid increase of CO2 emission has caused severe environmental issues. The environmental concern has made how to reduce the carbon emissions become a hot topic. Many scholars and research teams believe that the organic amine chemical absorption technology is the most favored and promising carbon capture technology due to its highly CO2 removal effectiveness. However, it is not applied wildly in industrial environment since the desorption process energy consumption is too much, over 4 GJ/t … Show more

“…The rising trend of CO 2 concentration in the atmosphere has gained global attention on the greenhouse effect. − To overcome this challenge, decarbonization through the CO 2 capture and storage (CCS) technology is regarded as a crucial strategy to limit CO 2 emissions and reach carbon-neutrality. − Chemical solvent CO 2 absorption–desorption using aqueous monoethanolamine (MEA) is the most widely accepted technique for CO 2 separation technology due to the relatively high CO 2 absorption rate and capacity, excellent mass transfer, and low cost. ,, However, the high energy demand required for solvent regeneration, generated due to water evaporation and carbamate decomposition, indirectly results in CO 2 emission and consequently hinders the industrial application of amine-based CO 2 capture technology. − Therefore, it is of great importance to improve the energy economy of the amine regeneration process and then achieve green CO 2 capture.…”

Cerium-MOF-Derived Composite Hierarchical Catalyst Enables Energy-Efficient and Green Amine Regeneration for CO₂ Capture

“…The rising trend of CO 2 concentration in the atmosphere has gained global attention on the greenhouse effect. − To overcome this challenge, decarbonization through the CO 2 capture and storage (CCS) technology is regarded as a crucial strategy to limit CO 2 emissions and reach carbon-neutrality. − Chemical solvent CO 2 absorption–desorption using aqueous monoethanolamine (MEA) is the most widely accepted technique for CO 2 separation technology due to the relatively high CO 2 absorption rate and capacity, excellent mass transfer, and low cost. ,, However, the high energy demand required for solvent regeneration, generated due to water evaporation and carbamate decomposition, indirectly results in CO 2 emission and consequently hinders the industrial application of amine-based CO 2 capture technology. − Therefore, it is of great importance to improve the energy economy of the amine regeneration process and then achieve green CO 2 capture.…”

Cerium-MOF-Derived Composite Hierarchical Catalyst Enables Energy-Efficient and Green Amine Regeneration for CO₂ Capture

Nanoporous hypercrosslinked polymers as cost-effective catalysts to significantly promote the CO2 absorption performance of water-lean solvents for post-combustion CO2 capture

Understanding the Catalytic Effect on the CO2 Regeneration Performance of Amine Aqueous Solutions