Facile, time-saving cigarette butt-assisted combustion synthesis of modified CaO-based sorbents for high-temperature CO2 capture

Highly efficient and stable Zr-incorporated CaO-based sorbents were synthesized using a facile, cigarette butt-assisted combustion synthesis (CAC) method. Comparative investigation of CAC method with two common synthesis methods (i.e., wet-mixing, sol-gel) on producing CaO-based sorbents was conducted. The sorbents synthesized by the CAC and sol-gel methods exhibit superior cyclic CO2 capture capability compared to wet-mixing. More importantly, the CAC belongs to impregnated layer solution combustion synthesis and takes markedly shorter time compared to sol-gel, possessing the potential of scaled-up preparation. The optimization of combustion temperature and incorporation ratio of Zr-based support on synthesis of CaO-based sorbents by CAC method was further conducted. The proper combustion temperature selected to synthesize Zr-incorporated CaO-based sorbents using CAC method is 750 degrees C. Too high or low combustion temperature may result in un-satisfactory pore structure of synthetic CaO-based sorbents because of excessive sintering or generating in-situ CaCO3, respectively. The synthetic CaO-based sorbents with 25 wt% of ZrO2 exhibit the outstanding CO2 cap-ture performance (CaO carbonation conversion of 63.8% after 17 cycles) due to the generation of extensive CaZrO3 grains acting as the inert skeleton. Additionally, the combination of cigarette butt-assisted combustion and graphite-moulding can prepare Zr-incorporated CaO-based pellets with desirable practicality.

Automated summary

Highly efficient and stable Zr-incorporated CaO-based sorbents were synthesized using a cigarette butt-assisted combustion synthesis (CAC) method. The CAC method showed superior cyclic CO2 capture capability and shorter synthesis time compared to wet-mixing and sol-gel methods. The optimal combustion temperature for synthesizing Zr-incorporated CaO-based sorbents using CAC method was found to be 750 degrees C. Synthetic sorbents with 25 wt% ZrO2 exhibited outstanding CO2 capture performance due to the generation of extensive CaZrO3 grains. The combination of cigarette butt-assisted combustion and graphite-moulding enabled the preparation of practical Zr-incorporated CaO-based pellets.