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Renewable Feedstocks in Green Solvents: Thermodynamic Study on Phase Diagrams of D-sorbitol and Xylitol With Dicyanamide Based Ionic Liquids

Renewable Feedstocks in Green Solvents: Thermodynamic Study on Phase Diagrams of D-sorbitol and Xylitol With Dicyanamide Based Ionic Liquids

Kamil Paduszyński, Marcin Okuniewski, Urszula Domańska

J Phys Chem B. 2013 Jun 13;117(23):7034-46.

PMID: 23683321

Abstract:

Experimental and theoretical studies on thermodynamic properties of three ionic liquids based on dicyanamide anion (namely, 1-butyl-3-methylimidazolium dicyanamide, 1-butyl-1-methylpyrrolidinium dicyanamide, and 1-butyl-1-methylpiperidinium dicyanamide) and their binary mixtures with sugar alcohols (D-sorbitol and xylitol) were conducted in order to assess the applicability of the salts ionic liquids for dissolution of those biomass-related materials. Density and dynamic viscosity (at ambient pressure) of pure ionic liquids are reported in the temperature range from T = 293.15 to 363.15 K. Solid-liquid equilibrium phase diagrams in binary systems {sugar alcohol + ionic liquid} were measured with dynamic method up to the fusion temperature of sugar alcohol. The impact of the chemical structure of both the ionic liquid and sugar alcohol were established and discussed. For the very first time, the experimental solubility data were reproduced and analyzed in terms of equation of state rooted in statistical mechanics. For this purpose, perturbed-chain statistical associating fluid theory (PC-SAFT) was employed. In particular, new molecular schemes for the ionic liquids, D-sorbitol, and xylitol were proposed, and then the pure chemicals were parametrized by using available density and vapor pressure data. The model allowed accurate correlation of pure fluid properties for both ionic liquids and sugar alcohols, when the association term is taken into account. The results of solid-liquid equilibria modeling were also satisfactory. However, one or two adjustable binary corrections to the adopted combining rules were required to be adjusted in order to accurately capture the phase behavior. It was shown that a consistent thermodynamic description of extremely complex systems can be achieved by using relatively simple (but physically grounded) theoretical tools and molecular schemes.

Chemicals Related in the Paper:

Catalog Number	Product Name	Structure	CAS Number	Price
AP370865808	1-Butyl-1-methylpyrrolidinium dicyanamide		370865-80-8	Price

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