Title of article
Equilibrium of ion-exchange polymeric membrane with aqueous salt solution and its thermodynamic modeling
Author/Authors
Shiryaeva، نويسنده , , Irina M and Victorov، نويسنده , , Alexey I، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2001
Pages
24
From page
115
To page
138
Abstract
A thermodynamic model is proposed to describe distribution of the components between a liquid solution and a swollen membrane undergoing structural transformations. Free energy contributions related to formation of solution-filled micro-cavities in the membrane interior are estimated. Formation of the cavities of different shape is accounted for by using the Helfrich expressions for the bending energy of a curved interface. Three adjustable parameters of the model are related to the hydrophobic polymer matrix of the membrane, while the electrostatic contribution is estimated explicitly. Structural changes in the membrane are described as a transition from spherical to cylindrical cavities. Predominance of cavities having definite shape (spheres, cylinders) results in a specific shift of the Donnan equilibrium, which thus, becomes dependent on the structure of the membrane on the mesoscale. The results of model calculations are compared with the experimental data on the distribution of ions (H+, Li+, Cs+, K+, Na+, Ca2+, Mg2+) between the aqueous solution and the membrane. Different types of predicted thermodynamic behavior of the membrane in the liquid solution, including the hysteresis of ion-exchange equilibrium curves, are discussed. The model takes into account the effect of micro-inhomogeneties and helps to establish a link between molecular characteristics of the perfluoropolymer membrane and its macroscopic behavior in the liquid solution.
Keywords
Thermodynamic model , Swelling polyelectrolyte , Non-uniformity on mesoscale , Method of Calculation , Ion-exchange equilibrium , Perfluorosulfonate membrane
Journal title
Fluid Phase Equilibria
Serial Year
2001
Journal title
Fluid Phase Equilibria
Record number
1983168
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