Functional Biochar Synergistic Solid/Liquid-Phase CO2 Capture: A Review

Nowadays, global warming is becoming more and more serious, while CO2 capture technologies have emerged endlessly, with methods of solid-phase CO2 capture for physical adsorption and liquidphase CO2 capture for chemical absorption. Biochar has been widely used to achieve CO2 sequestration and emission reduction as a result of its wide range of precursor sources, strong adsorption, and rich surface functional groups. It reviews the existing post-combustion CO2 capture solutions, focusing on the analysis of CO2 capture technologies based on liquid-phase ammonia/monoethanolamine and solid-phase carbonbased materials. The former (liquid phase) is with limitation of capture efficiency as a result of strong volatility and thermal degradation, while the latter (solid phase) is accompanied by limited CO2/N-2 selectivity. The realization of synergy between the two would learn from each other's strengths to improve the CO2 adsorption ability. The review puts forward the concept of biochar-functionalized crosslinking synergistic ammonia CO2 capture technology, which not only broadens the idea of multi-level utilization of biochar, significantly improving the liquid-phase (ammonia) CO2 capture efficiency, but also has practical significance for the utilization of biomass waste and reduction of CO2 emissions.

Automated summary

This article reviews the existing post-combustion CO2 capture solutions, with a focus on liquid-phase and solid-phase CO2 capture technologies. The author proposes the concept of biochar-functionalized crosslinking synergistic ammonia CO2 capture technology, which has practical significance for the utilization of biomass waste and reduction of CO2 emissions.