Grand canonical ensemble Monte Carlo simulations of adsorption in energetically heterogeneous slit-like pores

In this article the Taylor-expansion method is introduced by which Monte Carlo ( \(\mathrm{MC}\) ) simulations in the canonical ensemble can be speeded up significantly. Substantial gains in computational speed of \(20-40 \%\) over conventional implementations of the \(M C\) technique are obtained o

## Adsorption isotherms of N, by slit-shaped graphitic micropores at 77 K were simulated using grand canonical Monte Carlo (GCMC) simulation and compared the simulated isotherms with experimental adsorption isotherms of Nz on pitch-based activated carbon fibers. The pore was modeled as the slit sp

A model of hard spheres adsorbed in a disordered quenched matrix of chain molecules is studied by using the replica Ornstein-Zernike equations and grand canonical Monte Carlo simulations. The pair distribution functions and the adsorption isotherms are obtained and discussed. The theory agrees well