PHASE-EQUILIBRIA AND CHEMICAL-POTENTIALS IN INFINITE DILUTION OF NONIDEAL FLUID MIXTURES FROM PERTURBATION-THEORY

A recently developed first-order hard sphere perturbation theory, in combination with the random phase approximation, is applied to calculate phase equilibria and chemical potentials in infinite dilution of several simple binary fluid mixtures. Results are reported for Lennard-Jones mixtures in which the components differ significantly in their molecular size and energy parameters. Detailed comparisons of theoretical predictions with recent simulation results show the perturbation theory to be highly reliable in varying non-ideal conditions.