Adsorption of laterally interacting gas mixtures on homogeneous surfaces

SANCHEZ VARRETTI, F. O.; PASINETTI P. M.; BULNES F.; A. J. RAMIREZ-PASTOR

ADSORPTION-JOURNAL OF THE INTERNATIONAL ADSORPTION SOCIETY

SPRINGER

Lugar: Berlin; Año: 2017

0929-5607

The adsorption of binary mixtures containing particles A and B on homogeneous substrates is studied by Monte Carlo (MC) simulations, quasi-chemical approximation (QCA), and exact counting of states on nite cells (we call this approach cluster approximation, CA). The energies involved in the adsorption model are ve: 1) eA, interaction energy between a A particle and a lattice site; 2) eB, interaction energy between a B particle and a lattice site; 3) wAA, nearest-neighbor interaction energy between two A particles; 4) wAB (=wBA), nearest-neighbor interaction energy between a A particle and a B particle and 5) wBB, nearest-neighbor interaction energy between two B particles. The process is monitored by following the coverage of both species with the simultaneous increasing of the individual chemical potentials of each mixture component. A non-trivial interdependence between the partial adsorption isotherms was observed and discussed in the context of the latticegas theory. The theoretical formalism is used to model experimental data of methane-carbon dioxide mixtures adsorbed on activated carbon. In addition, an excellent agreement was obtained betweentheoretical and MC simulation results. This nding evidences the usefulness of CA and QCA as a starting point to predict the behavior of a system governed by a large number of parameters.