Simulation of methane permeability in carbon slit pores

## Abstract An extensive grand canonical Monte Carlo simulation has been performed to study the adsorption behavior and the orientational structure of CO~2~ confined in slit graphite pores, with a wide pore width range of 0.61 to 3.04 nm and pressures up to 3.41 MPa. The simulation results show tha

Equilibrium partitioning of spherical solutes between slit pores and bulk solution is investigated by the Gibbs ensemble Monte Carlo method. Two types of perturbations are performed in this simulation: a random displacement of solutes that ensures equilibrium within both bulk and pore regions, and r

Based on the storage mechanism of methane in wet carbon, the pore size of activated carbon must match the dimension of methane hydrates, and 1.6-2.8 nm was recognized as the optimal pore size. Targeting at the optimal pore size, a progressive activation process was applied on corncob precursors and

We have used the grand canonical Monte Carlo method to study the adsorption and selectivity of mixtures of carbon dioxide with methane and nitrogen at high (i.e., ambient) temperatures in model slit pores with graphitic surfaces. Experimental data, including new high pressure measurements for carbon