Calorimetric measurements for modeling thermodynamic properties of pure fluids and fluid mixtures

Methods are described for the prediction of the thermodynamic properties based on earlier work on the principle of correspondii states and its extensions. The calculations cover compression factors, enthalpies, Joule-Thomson coefficients, liquid-vapour equilibria, and flash separations. The overall

A~traet--In this paper, we present a first-order hard sphere perturbation theory of nonideal ternary fluid mixtures. Results are reported for total and excess thermodynamic properties of three ternary mixtures, in which size parameters of the mixture components are the same, but energy parameters di

Methods are described for the prediction of critical loci, upper and lower critical end points, and azeotropic lines in binary and multicomponent mixtures. The results agree quantitatively with experiment for mixtures with only one liquid phase, and describe, at least qualitatively, many of the topo

Ah&act-A generalised multtiuid corresponding slates principle is presented for the correlation and prediction of the thermodynamic properties of fluid mixtures. The multifluid model is an extension of earlier work which was based on the known properties of two (nonspherical) reference fluids. The ne