Modeling the Cloud Curves and the Solubility of Gases in Amorphous and Semicrystalline Polyethylene with the SAFT-VR Approach and Flory Theory of Crystallization

Abstract : In this work we investigate the salting out of n-alkanes in water by strong electrolytes using an extension of the statistical associating fluid theory for attractive potentials of variable range which incorporates ionic interactions (SAFT-VRE) [Galindo, A.; Gil-Villegas, A.; Jackson, G.; Burgess, A. N. J. Phys. Chem. B 1999, 103, 102721. The systems are treated as water (1) + n-alkane (2) + cation (3) + anion (4) four-component mixtures. The water molecules are modeled as spherical with four associating sites to mediate hydrogen bonding, while the n-alkane molecules are modeled as chains of tangentially bonded spherical segments interacting via square-well potentials. The phase behavior of the binary water + n-alkane mixtures is well-described by the theoretical approach using two unlike adjustable parameters which are transferable for different alkane molecules. The salt is incorporated in the model as fully dissociated and assumed to be present only in the water-rich phase. In this way, the anion and cation are modeled as two hard spheres of different diameters in what concerns their repulsive contribution. The experimental Pauling radii are used for each of the ions. Long-range Coulombic ion-ion interactions are treated in the mean spherical approximation at the level of the restricted primitive model, and the experimental water dielectric constant D is incorporated to model ion-solvent electrostatic interactions. Water-ion attractive interactions are treated following previous work for aqueous solutions. We find that, to observe the desired salting-out effect in the mixture, no additional adjustable parameters are required. In this sense, the theoretical calculations are true predictions of the phase behavior of these complex mixtures.
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Industrial and engineering chemistry research, American Chemical Society, 2004, 43 (21), pp.3809-3823. 〈10.1021/ie049592a〉
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https://hal.archives-ouvertes.fr/hal-01153447
Contributeur : Patrice Paricaud <>
Soumis le : mardi 19 mai 2015 - 17:44:13
Dernière modification le : jeudi 16 novembre 2017 - 17:14:19

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Patrice Paricaud, Amparo Galindo, George Jackson. Modeling the Cloud Curves and the Solubility of Gases in Amorphous and Semicrystalline Polyethylene with the SAFT-VR Approach and Flory Theory of Crystallization. Industrial and engineering chemistry research, American Chemical Society, 2004, 43 (21), pp.3809-3823. 〈10.1021/ie049592a〉. 〈hal-01153447〉

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