Analyzing adsorption characteristics of CO2, N2 and H2O in MCM-41 silica by molecular simulation

•The GCMC simulation of CO2, N2, and H2O adsorption in MCM-41 has been presented.•Pressure and temperature effects on the adsorption characteristics are discussed.•The results demonstrate three mechanisms of gas molecules adsorbed in MCM-41.•The applicability of adsorbing H2O by MCM-41 is presented....

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Published in:Applied surface science 2015-03, Vol.331, p.225-233
Main Authors: Chang, Shing-Cheng, Chien, Shih-Yao, Chen, Chieh-Li, Chen, Cha’o-Kuang
Format: Article
Language:English
Subjects:
Adsorption
Carbon dioxide
Computer simulation
Density
MCM-41
Molecular simulation
Operating temperature
Porosity
Surface chemistry
Water adsorption
Water chemistry
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container_title Applied surface science
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creator Chang, Shing-Cheng
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description •The GCMC simulation of CO2, N2, and H2O adsorption in MCM-41 has been presented.•Pressure and temperature effects on the adsorption characteristics are discussed.•The results demonstrate three mechanisms of gas molecules adsorbed in MCM-41.•The applicability of adsorbing H2O by MCM-41 is presented. The adsorption characteristics of carbon dioxide, nitrogen and water molecules in MCM-41 mesoporous molecular sieve have been investigated by the molecular simulation. We evaluate the pressure–adsorption isotherms and adsorption density profiles under variant gas pressure, operating temperature and mesopore radius of MCM-41 by the grand canonical Monte Carlo simulation. According to the calculated adsorption energy distributions, the adsorption mechanisms of gas in MCM-41 are mainly divided into three types, namely “surface adsorption” on the pore wall, “multilayer adsorption” on the adsorbed gas molecules and “molecular self-aggregation” near the pore center. In addition, the adsorption characteristics of water molecules in MCM-41 are found to be quite different from those of carbon dioxide and nitrogen due to the hydrogen bonds effect. The results indicate that the MCM-41 is practicable in engineering application for the capture, storage, and re-use of water molecules, since it is temperature-sensitive and can achieve significant adsorption loadings within a small range of pressure values via the capillary condensation phenomena.
doi_str_mv 10.1016/j.apsusc.2015.01.084
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subjects Adsorption
Carbon dioxide
Computer simulation
Density
MCM-41
Molecular simulation
Operating temperature
Porosity
Surface chemistry
Water adsorption
Water chemistry
title Analyzing adsorption characteristics of CO2, N2 and H2O in MCM-41 silica by molecular simulation
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