4.6 Article

Mechanistic insights into confined methane adsorption in carbon nanopores at the molecular level

Journal

CHEMICAL ENGINEERING SCIENCE
Volume 250, Issue -, Pages -

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ces.2021.117374

Keywords

Confined methane adsorption; Carbon nanopore; Simplified local density model; Cubic EOS; Fluid-fluid interaction

Funding

  1. National Natural Science Foundation of China [52004038, 51774298, 51974330, U19B6003-03-04]
  2. General Project of Natural Science Research in Colleges and Universities of Jiangsu Province [20KJB440003]

Ask authors/readers for more resources

This study proposes a confined adsorption model that achieves accurate results by modifying the equation of states and introducing the (3/8)rff assumption. The research finds that the confined effect has little impact on fluid-fluid repulsion, but as the pore size decreases, the fluid-wall interactive potential has a positive effect on confined adsorption.
For methane adsorption, little attention has been given to the comprehensive effect of fluid-wall and fluid-fluid interactions in confined carbon pores. The simplified local density (SLD) model is suitable for confined adsorption studies. However, it has not been unified due to the various utilizations of the equation of states (EOSs). Eighteen selected cubic EOSs were modified, including the first given expressions of confined attractive parameters with the (3/8)rff assumption. After comparing 36 SLD models, the Redlich-Kwong-Soave-type EOS and the (3/8)rff assumption were recommended for accurate confined adsorptions. The confined effect has little impact on fluid-fluid repulsion. As the size of carbon nanopores decreases, the confined adsorption is negatively affected by the decreasing fluid-fluid attractive potential and positively affected by the growing fluid-wall interactive potential. When nanopores are larger than 3 nm, the adsorption is not affected by the confined effect. Our research provided novel mechanistic insights into confined methane adsorption.(C) 2022 Elsevier Ltd. All rights reserved.

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