Thermodynamic perturbation theory and glass transition in simple fluids

A recent paper [ 1] examined the effect of polarizability in a liquid of polar spheres by using first-order perturbation theory. A Monte Carlo calculation was

A new simple method without reference to graph theoretical concepts is devised to derive the random phase approximation expression and its nonlinear generalization in the context of the perturbation theory of liquids.

## Abstract A theory is discussed of single‐component transport in nanopores, recently developed by Bhatia and coworkers. The theory considers the oscillatory motion of molecules between diffuse wall collisions, arising from the fluid–wall interaction, along with superimposed viscous flow due to fl

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

In this paper, a previously developed first-order hard sphere perturbation theory of a ternary fluid mixture (Fotouh and Shukla, 1996, Chem. Enyn9 Sci. 51, 49234931) is applied to predict excess properties of a real ternary fluid mixture using a theoretically consistent combination rule. We consider