Pure gas adsorption isotherms of carbon dioxide at (273, 283, 303, 323, 343) K and binary adsorption isotherms
of carbon dioxide and methane at (303, 323) K and pressures up to 10 bar on Zeochem Co. Zeolite
5A were measured using a volumetric method. Equilibrium gas phase compositions have been determined
using a gas chromatograph (GC). The experimental binary equilibrium data were compared with
equilibrium data calculated by ideal adsorbed solution theory (IAST), and vacancy solution model (VSM).
A model analysis of the experimental data has been performed with real adsorbed solution theory (RAST)
owing to not satisfactory prediction of multi-component behavior with IAST and VSM. For this purpose,
activity coefficients, accounting for the non-ideality of the adsorbed mixture, were calculated from the
experimental data. The results of the pure experimental data showed that, the heat of adsorption for
methane is approximately independent of loading (about 20 kJ/mol), and for carbon dioxide decreases
by increasing loading when q < 0.5 mol/kg. Subsequently, by increasing loading, the heat of adsorption
increases up to q = 2 mol/kg. The selectivity of both simulated landfill and biogas mixtures have been also
measured experimentally. These data indicated that zeolite 5A can be successfully applied in CO2/CH4
separation for landfill gas and biogas upgrading.