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K2CO3-doped CaO-based sorbent for CO2 capture: Performance studies and promotion mechanisms

Pengchao Zang, Jiyun Tang, Tao Yi, Hao Zhang, Xiaozhe Wang, Lin Cui, Shouyan Chen, Pei Zhao, Yong Dong, Yong Dong

2025Chemical Engineering Journal26 citationsDOIOpen Access PDF

Abstract

Calcium looping (CaL) represents a promising technology for CO 2 capture from flue gas. Nevertheless, CaO-based sorbents, characterized by high theoretical absorption capacities and low costs, experience significant degradation in CO 2 capture capacity during continuous cycling. In the present study, a novel K 2 CO 3 -doped CaO sorbent was synthesized through a concurrent hydrophilic impregnation process, and the performance of consecutive cyclic CO 2 capture was evaluated. The optimal 0.05 K-CaO demonstrated the highest CO 2 sorption (12.4 mmol/g), maintaining about 64 % of the initial sorption after 20 repetitive cycles under N 2 calcination atmosphere, which is 6.6 times greater than that of CaO. These findings indicated that K 2 CO 3 can regulate the particle size and the state of surface oxygen species in CaO-based sorbents while simultaneously enhancing CO 2 diffusivity on the sorbent surface. The DFT calculations indicated that the incorporation of K 2 CO 3 improved the mechanism of CaO chemisorption of CO 2 . Additionally, the vacancies and CO 3 2– generated by K 2 CO 3 doping can enhance the CO 2 sorption energy and reduce the system’s energy level. Notably, the net charge transfer for CO 2 sorption from K 2 CO 3 doping is greater than that from pure CaO, and the O atoms on the surface of K 2 CO 3 -CaO (001) exhibit strong covalent interactions with the C atoms in CO 2 , both of which facilitate CO 2 chemisorption. This study offers a comprehensive theoretical mechanism for the incorporation of K-based alkali metals to enhance the CO 2 capture performance of CaO sorbents.

Topics & Concepts

SorbentPromotion (chess)DopingChemical engineeringMaterials scienceChemistryEngineeringPolitical scienceAdsorptionOrganic chemistryOptoelectronicsLawPoliticsChemical Looping and Thermochemical ProcessesCarbon Dioxide Capture TechnologiesIndustrial Gas Emission Control