RESEARCH NOTE Molecular simulation of the liquid-liquid equilibria of binary mixtures containing dipolar and non-polar components interacting via the Keesom potential
- 1 November 1996
- journal article
- research article
- Published by Taylor & Francis in Molecular Physics
- Vol. 89 (4) , 1187-1194
- https://doi.org/10.1080/002689796173589
Abstract
The Gibbs ensemble is used to simulate the liquid–liquid equilibria of binary mixtures containing dipolar and non-polar components.The interactions of the dipolar fluid are calculated using the Keesom intermolecular potential. The liquid–liquid coexistence properties are reported for different pressures and different combinations of dipolar/non-polar molecules. The critical properties of the mixtures are estimated. The ability of a dipole to induce phase separation is influenced by the dispersion energy of the molecule. Phase separation is enhanced if the dipolar molecule is also the component with the greatest dispersion energy.Keywords
This publication has 22 references indexed in Scilit:
- Monte carlo simulations of phase coexistence for polymeric and ionic fluidsFluid Phase Equilibria, 1995
- Molecular simulation of self-assembly in surfactant and protein solutionsFluid Phase Equilibria, 1993
- Direct simulation of phase equilibria of chain moleculesJournal of Physics: Condensed Matter, 1992
- MODELS FOR HIGH PRESSURE MULTICOMPONENT EQUILIBRIAPublished by Elsevier ,1992
- Equation-of-state methods for the modelling of phase equilibriaFluid Phase Equilibria, 1990
- Phase equilibria by simulation in the Gibbs ensembleMolecular Physics, 1988
- Direct determination of phase coexistence properties of fluids by Monte Carlo simulation in a new ensembleMolecular Physics, 1987
- Equations of State in Engineering and ResearchAdvances in Chemistry, 1979
- Thermodynamic perturbation theory for simple polar fluids, IMolecular Physics, 1972
- Perturbation Theory and Equation of State for Fluids: The Square-Well PotentialThe Journal of Chemical Physics, 1967