Title of article
JESS, a Joint Expert Speciation System—V: Approaching thermodynamic property prediction for multicomponent concentrated aqueous electrolyte solutions
Author/Authors
Rowland، نويسنده , , Darren and May، نويسنده , , Peter M.، نويسنده ,
Issue Information
ماهنامه با شماره پیاپی سال 2010
Pages
7
From page
149
To page
155
Abstract
Considerable difficulties persist in modelling the thermodynamics of multicomponent aqueous electrolyte solutions, especially at high concentrations. The widely adopted Pitzer formalism suffers from severe disadvantages, particularly with the combinatorial increase in mixing parameters required in multicomponent systems. As an alternative, the simple mixing rules of Young, of Harned and of Zdanovskii have been employed to predict the properties of mixtures using only the properties of the binary constituents with few or no additional parameters. Among these, Zdanovskiiʹs rule is particularly promising because it constitutes a fundamental criterion for ideal mixing, i.e. when solutions having the same solvent activity are mixed in any proportion, the solvent activity remains unchanged. Many mixtures of strong electrolyte solutions are known from experiment to obey Zdanovskiiʹs rule. This is important because application to aqueous electrolyte systems of practical interest has been hindered due to the process-intensive determination of water activities using the Gibbs–Duhem relation. This paper describes an alternative method which efficiently calculates the water activity of a multicomponent solution obeying Zdanovskiiʹs rule. Some specific examples of the method are presented and various applications considered. In some systems, where deviations from Zdanovskiiʹs rule occur, a single empirical parameter can be obtained and can be easily incorporated into the calculations.
Keywords
physicochemical properties , Strong electrolytes , water activity , Zdanovskiiיs rule , Aquatic chemistry , Chemical species
Journal title
Talanta
Serial Year
2010
Journal title
Talanta
Record number
1636862
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