The structure of adsorbed CO2 in slitlike micropores at low and high temperature and the resulting micropore size distribution based on GCMC simulations
S. Samios et al., The structure of adsorbed CO2 in slitlike micropores at low and high temperature and the resulting micropore size distribution based on GCMC simulations, J COLL I SC, 224(2), 2000, pp. 272-290
The Monte Carlo method is used in its grand ensemble variant in combination
with CO2 experimental isotherm data at low (195.5 K) and high temperatures
(at 298 and 308 K, i.e., slightly below and above the CO2 critical tempera
ture, respectively) to characterize microporous carbons and obtain the corr
esponding pore size distribution (PSD). Specifically, the CO2 density insid
e a single, slit-shaped, graphitic pore of given width is found on the basi
s of grand canonical Monte Carlo (GCMC) simulations for a predefined temper
ature and different relative pressures. The simulation results provide usef
ul insights concerning the densification process in the micropores and the
structure of the CO2 molecules packing in the individual pores as the tempe
rature or pressure changes from 195.5 K to ambient or from very low to 70 b
ar, respectively. Effects of temperature, pore size, quadrupole interaction
s, and molecule elongation on the local density profile within the pore are
examined and discussed. In an additional step, we determine the optimal PS
D for which the best match is obtained between computed and measured CO2 is
otherms, Comparisons are made between the PSDs found for the same carbon sa
mple at low and high temperatures and conclusions are drawn concerning the
applicability of the method and the reliability of the resulting micropore
size distributions, (C) 2000 Academic Press.