Effect of microstructure in mesoporous adsorbents on the adsorption of low concentrations of VOCs: An experimental and simulation study

吸附 坡缕石 微型多孔材料 介孔材料 体积热力学 沸点 化学工程 比表面积 化学 范德瓦尔斯力 材料科学 有机化学 热力学 催化作用 分子 工程类 物理
作者
Yangyu Liu,Arman Peyravi,Xiongbo Dong,Zaher Hashisho,Shuilin Zheng,Xiaohong Chen,Du Gao,Yongxing Hao,Yuping Tong,Jiuyue Wang
出处
期刊:Journal of Hazardous Materials [Elsevier BV]
卷期号:458: 131934-131934 被引量:39
标识
DOI:10.1016/j.jhazmat.2023.131934
摘要

This study evaluated the adsorption of five volatile organic compounds (VOCs) on Opoka, precipitated silica, and palygorskite, to elucidate the effect of their pore size on VOCs adsorption. The adsorption capacity of these adsorbents is not only highly correlated with their surface area and pore volume, but also notably improved by the presence of micropores. The variation in adsorption capacity for different VOCs was primarily influenced by their boiling point and polarity. Palygorskite, which had the smallest total pore volume (0.357 cm3/g) but the largest micropore volume (0.043 cm3/g) among the three adsorbents, exhibited the highest adsorption capacity for all tested VOCs. Additionally, the study constructed slit pore models of palygorskite with micropores (0.5 and 1.5 nm) and mesopores (3.0 and 6.0 nm), calculated and discussed the heat of adsorption, concentration distribution, and interaction energy of VOCs adsorbed on different pore models. The results revealed that the adsorption heat, concentration distribution, total interaction energy, and van der Waals energy decrease with increasing pore size. The concentration of VOCs in 0.5 nm pore was nearly three times that in 6.0 nm pore. This work can also provide guidance for further research on using adsorbents with mixed microporous and mesoporous structures to control VOCs.
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