A systematic comparison of nine models formed by various combinations of three Debye-Hückel expressions and three local-composition expressions for representation of nonideality in electrolyte solutions
- 31 December 1989
- journal article
- Published by Elsevier in Fluid Phase Equilibria
- Vol. 53, 269-277
- https://doi.org/10.1016/0378-3812(89)80095-0
Abstract
No abstract availableThis publication has 17 references indexed in Scilit:
- An activity-coefficient model for electrolyte systemsComputers & Chemical Engineering, 1989
- THERMODYNAMICS OF CONCENTRATED ELECTROLYTE SOLUTIONSChemical Engineering Communications, 1989
- A nonrandom factor model for the excess gibbs energy of electrolyte solutionsAIChE Journal, 1988
- An NRTL model for representation and prediction of deviation from ideality in electrolyte solutions compared to the models of Chen (1982) and Pitzer (1973)AIChE Journal, 1985
- Electrolyte solutionsFluid Phase Equilibria, 1983
- Towards the extensionof UNIFAC to mixtures with electrolytesFluid Phase Equilibria, 1983
- Local composition model for excess Gibbs energy of electrolyte systems. Part I: Single solvent, single completely dissociated electrolyte systemsAIChE Journal, 1982
- Correlation for activities of water in aqueous electrolyte solutions using ASOG model.JOURNAL OF CHEMICAL ENGINEERING OF JAPAN, 1981
- A new thermodynamic representation of binary electrolyte solutions nonideality in the whole range of concentrationsAIChE Journal, 1978
- Osmotic Coefficients and Mean Activity Coefficients of Uni-univalent Electrolytes in Water at 25°CJournal of Physical and Chemical Reference Data, 1972