A Theory of Chemical Separations: Thermodynamic Relationships in Linear Multistate Chemical Systems

1 December 1969

journal article
research article
Published by Taylor & Francis in Separation Science

Vol. 4 (6) , 447-455
https://doi.org/10.1080/01496396908052272

Abstract

A simple relationship between the over-all thermodynamic equilibrium constant and the thermodynamic equilibrium constants for the individual partition states that occur within a linear multistate chemical system is derived. The interrelationships between the various parameters that characterize gas-liquid systems—the symmetrical activity coefficient at infinite dilution, Henry's constant, and the partition coefficient—are treated in detail to demonstrate the application of the theoretical results.

Keywords

This publication has 6 references indexed in Scilit:

A Theory of Chemical Separations: Partition States
Separation Science, 1969
A Theory of Chemical Separations: The Fundamental Equation for Ideal Partitioning Separation Systems
Separation Science, 1968
Gas-liquid chromatographic separation of diastereoisomeric amides of racemic cyclic amines
Analytical Chemistry, 1967
Physical and chemical forces in solvent selectivity for hydrocarbons
AIChE Journal, 1962
Thermodynamics of solvent selectivity in extractive distillation of hydrocarbons
AIChE Journal, 1961
A Spectrophotometric Investigation of the Interaction of Iodine with Aromatic Hydrocarbons
Journal of the American Chemical Society, 1949