Facile Preparation of Porous Carbon Derived from Industrial Biomass Waste as an Efficient CO<sub>2</sub> Adsorbent
Caicheng Song, Wanyue Ye, Yingcen Liu, He Huang, Hao Zhang, Hua Lin, Rongwen Lu, Shufen Zhang
Abstract
High Resolution Image Download MS PowerPoint Slide A porous carbon CO 2 adsorbent based on soybean cake (industrial biomass waste) has been successfully prepared by direct carbonation, following KOH activation. The prepared porous carbon adsorbent exhibits efficient CO 2 capture performance with the highest adsorption capacity of 4.19 and 6.61 mmol/g at 298 and 273 K under atmospheric pressure, respectively. Moreover, the porous carbon adsorbent also shows good static CO 2 adsorption capacity at a low pressure (0.15 bar) with an uptake of 1.26 mmol/g and an equally ideal dynamic CO 2 capture capability with an uptake of 1.28 mmol/g (15% CO 2 ) at 298 K. Additionally, the ideal adsorbed solution theory (IAST) model has been used to measure the selectivity of the porous carbon, and the IAST factors of CO 2 /N 2 (15/85, fuel gas), CO 2 /CH 4 (40/60, biogas), and CH 4 /N 2 (50/50, coalbed gas) are about 27, 6, and 6, respectively. The dynamic breakthrough test reveals the strong interaction between the porous carbon and CO 2, which also verifies the considerable selective capture ability of this material for CO 2 . Furthermore, the soybean cake-based CO 2 adsorbent also presents prominent cyclic regeneration capacity (a five-time cyclic test) with lower isosteric heats (34–18 kJ/mmol) of CO 2 adsorption.