Issue 37, 2020

The physisorption mechanism of SO2 on graphitized carbon

Abstract

Sulfur dioxide (SO2) in flue gases emitted from fossil fuel power plants dramatically reduces the CO2 capture efficiency via adsorption, which is due to the potential reaction of SO2 with basic functional groups on the adsorbent. Physisorption rather than chemisorption is preferred, because adsorbents can be more easily regenerated by either reducing the pressure or increasing the temperature. Carbon is a suitable adsorbent for SO2 capture and widely used, and therefore it is important to study SO2 adsorption onto carbon with the Monte Carlo simulation to provide microscopic details to demarcate the roles of the basal plane of the graphene layer and the functional groups in adsorption. SO2 is a polar molecule like water, as they both carry partial charges, but they interact differently with functional groups. Instead of 3D-clusters in the case of water, SO2 is localized around the functional groups and spreads over the basal plane to form 2D-molecular layers because of the strong dispersive interactions with graphite. The results indicate that the functional group has a negligible effect on the enhancement of adsorption and its role is to localize 2D-clusters of SO2 molecules. For non-graphitized carbon, we have found that the greater loadings at low pressure compared to the highly graphitized carbon is due to the presence of defects (crevices) on the basal plane surface. Finally, to describe better the experimental data, we have found that the reduction in the interactions between adsorbed molecules in the first layer is because of the repulsion of their dipoles pointing normal to the surface, a phenomenon called surface mediation and is widely used in the description of gas adsorption on surfaces.

Graphical abstract: The physisorption mechanism of SO2 on graphitized carbon

Article information

Article type
Paper
Submitted
21 Jul 2020
Accepted
28 Aug 2020
First published
28 Aug 2020

Phys. Chem. Chem. Phys., 2020,22, 21463-21473

The physisorption mechanism of SO2 on graphitized carbon

S. J. Tan, D. D. Do and J. W. Chew, Phys. Chem. Chem. Phys., 2020, 22, 21463 DOI: 10.1039/D0CP03860A

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