Activity modelling of the solid–liquid equilibrium of deep eutectic solvents

Author:

Kollau Laura J.B.M.12ORCID,Vis Mark12ORCID,van den Bruinhorst Adriaan1,de With Gijsbertus1ORCID,Tuinier Remco123ORCID

Affiliation:

1. Laboratory of Physical Chemistry , Department of Chemical Engineering and Chemistry , Eindhoven University of Technology , P.O. Box 513 , 5600MB Eindhoven , The Netherlands

2. Institute for Complex Molecular Systems , Eindhoven University of Technology , Eindhoven , The Netherlands

3. Van ’t Hoff Laboratory for Physical and Colloid Chemistry, Debye Institute for Nanomaterials Science , Utrecht University , Utrecht , The Netherlands

Abstract

Abstract Compared to conventional solvents used in the chemical industry, deep eutectic solvents (DESs) are considered as promising potentially sustainable solvents. DESs are binary mixtures and the resulting liquid mixture is characterized by a large melting point depression with respect to the melting temperatures of its constituents. The relative melting point depression becomes larger as the two components have stronger attractive interactions, resulting in non-ideal behavior. The compositional range over which such binary mixtures are liquids is set by the location of the solid–liquid phase boundary. Here we present experimental phase diagrams of various recent and new DESs that vary in the degree of non-ideality. We investigate whether thermodynamic models are able to describe the solid–liquid equilibria and focus on relating the parameters of these models to the non-ideal behavior, including asymmetric behavior of the activity coefficients. It is shown that the orthogonal Redlich–Kister-like polynomial (OP) expansion, including an additional first order term, provides an accurate description. This theory can be considered as an extension of regular solution theory and enables physical interpretation of the fit parameters.

Funder

European Union’s Horizon 2020 research and innovation programme

Netherlands Organisation for Scientific Research (NWO)

Publisher

Walter de Gruyter GmbH

Subject

General Chemical Engineering,General Chemistry

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