吸附
生物炭
材料科学
水分
复合数
多孔性
金属有机骨架
化学工程
复合材料
残留物(化学)
苯
化学
热解
有机化学
工程类
作者
Hong Nam Nguyen,Nguyen Thu Phuong,Phuong Thu Le,Quang D. Tran,Hai Thi,Nguyen Trung Dung,Phuong Lan Tran‐Nguyen,Toshiki Tsubota,Thi Mai Thanh Dinh
标识
DOI:10.1016/j.jes.2023.10.022
摘要
Cost-effective CO2 adsorbents are gaining increasing attention as viable solutions for mitigating climate change. In this study, composites were synthesized by electrochemically combining the post-gasification residue of Macadamia nut shell with copper benzene-1,3,5-tricarboxylate (CuBTC). Among the different composites synthesized, the ratio of 1:1 between biochar and CuBTC (B 1:1) demonstrated the highest CO2 adsorption capacity. Under controlled laboratory conditions (0°C, 1 bar, without the influence of ambient moisture or CO2 diffusion limitations), B 1:1 achieved a CO2 adsorption capacity of 9.8 mmol/g, while under industrial-like conditions (25°C, 1 bar, taking into account the impact of ambient moisture and CO2 diffusion limitations within a bed of adsorbent), it reached 6.2 mmol/g. These values surpassed those reported for various advanced CO2 adsorbents investigated in previous studies. The superior performance of the B 1:1 composite can be attributed to the optimization of the number of active sites, porosity, and the preservation of the full physical and chemical surface properties of both parent materials. Furthermore, the composite exhibited a notable CO2/N2 selectivity and improved stability under moisture conditions. These favorable characteristics make B 1:1 a promising candidate for industrial applications.
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