期刊
SEPARATION AND PURIFICATION TECHNOLOGY
卷 317, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.seppur.2023.123865
关键词
Biochar; CO2 capture; New-ammonia method; Enhanced mass transfer
The use of functionalized biochar as an absorbent can enhance the mass transfer process of new ammonia-based CO2 capture, significantly improving the absorption capacity and capture efficiency of CO2. This study provides an innovative approach to improve ammonia-based CO2 capture method and reduce harmful carbon emissions.
Ammonia-based CO2 capture technology has crucial impacts on power plants carbon emission reduction, which has become one of the most concerning issues. However, there are limitations faced by traditional capture technology in the absorption rate, ammonia escape and regeneration energy consumption. The functionalized biochar (with a specific surface area of up to 2835.36 m(2)/g, micropores volume of 77.4 %) was used to enhance the mass transfer process of new ammonia-based (ammonia-ethanol mixed absorbent) CO2 capture by the bubbling absorption experiment system, combined with Monte Carlo simulations, which explored the adsorption and release characteristics of CO2/NH3 molecules in biochar with different pore sizes. The results show that the CO2 absorption flux added biochar RH-900 is 59.67 L center dot min, increased by 16.16 % compared with pure absorbent. And the volume mass transfer coefficient is 1.226 x 10(-4)mol/m(2)center dot s center dot Pa, increased by 15.3 % compared with the SiO2. The addition of RH-900 also promotes the CO2 load capacity of the carbonated solution up to 0.5255 mol/ L, enhancing the CO2 absorption capacity and CO2 capture efficiency significantly. The ultra-micropores adsorb CO2, while the surface of larger pores distributes and achieves the adequate fixation of NH3. Besides, the mesopores and macropores provide space where the CO2 is transported and diffused, and the free ammonia concentration is maintained. The study provides an innovative thought for improving the ammonia-based CO2 capture method and significantly reducing of harmful carbon emissions by biomass energy-carbon capture and storage (BECCS) technology.
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