Publication
Title
Adsorption study of carbon dioxide in 'L' shaped slit pores at high temperatures and pressures using Monte Carlo simulations
Author
Abstract
CO2 capture from high operating temperatures are of special interest as it is economically appealing over low temperature CO2 capture process in Post combustion capture. This work contributes to the estimation of new and complementary density data for CO2 confined in 'L' shaped carbon slit pores at high temperatures and pressures. CO2 adsorption capacities in 'L' shaped carbon slit pores of heights 20Å, 31.6Å, 63.2Å, 94.85Å and 126.5Å at 673.15 K and 873.15 K over a pressure range of 500 kPa to 4000 kPa are predicted by Grand Canonical Monte Carlo simulations. Elementary Physical Model is employed to model CO2 at these temperatures and pressures both in bulk and confined phase. CO2 adsorption capacities and the unique structural properties of the confined CO2 at all the condition mentioned above has been estimated in presence of the wall-fluid interactions and the fluid fluid interactions. The Steele wall potential is used to model the wall-fluid interactions inside carbon-based adsorbents that have a slit shaped geometry.
Language
English
Source (book)
International Conference on Applied Energy (ICAE 2019), Aug 12-15, 2019, Västerås, Sweden
Publication
ICAE , 2019
DOI
10.46855/ENERGY-PROCEEDINGS-5314
Volume/pages
6 (2019) , p. 1-6
Article Reference
0390
Full text (Publisher's DOI)
Full text (open access)
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Record
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Creation 21.11.2023
Last edited 22.11.2023
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