Mixtures of polar and nonpolar molecules
- 10 December 1986
- journal article
- research article
- Published by Taylor & Francis in Molecular Physics
- Vol. 59 (5) , 911-919
- https://doi.org/10.1080/00268978600102471
Abstract
The site-site Ornstein-Zernike (SSOZ) equation with mean spherical approximation closure is solved analytically for a mixture of hard dumbbells and polar hard dumbbells. The solution reduces to that of the pure polar hard dumbbell fluid at the polar species density rather than the total density. The thermodynamic properties of the mixture are obtained using the zero-pole approximation (ZPA) to the free energy. The mixture is shown to separate into two mixed phases, one rich in the nonpolar species and the other rich in the polar species. This phase separation terminates in an upper critical solution temperature. The excess thermodynamic functions are presented and the mixture exhibits both positive and negative values of the excess volume. The negative values of the excess volume occur in mixtures rich in the polar component.Keywords
This publication has 12 references indexed in Scilit:
- On the structure factor of dipolar molecular fluidsMolecular Physics, 1986
- The phase behaviour of interaction site fluidsMolecular Physics, 1984
- Mixtures of quadrupolar hard dumbellsMolecular Physics, 1984
- Numerical solution of the RISM equations for the site-site 12-6 potentialMolecular Physics, 1982
- Interaction site models for molecular fluidsMolecular Physics, 1982
- Polar hard dumb-bells and a RISM model for waterMolecular Physics, 1981
- An equation of state for hard dumbell fluidsMolecular Physics, 1980
- The solution of the RISM equation for diatomic symmetric moleculesMolecular Physics, 1979
- Exact solution of the mean spherical model for strong electrolytes in polar solventsThe Journal of Chemical Physics, 1974
- Optimized Cluster Expansions for Classical Fluids. II. Theory of Molecular LiquidsThe Journal of Chemical Physics, 1972