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Predictive thermodynamic model for solvent extraction of Iron(III) by tri-n-butyl phosphate (TBP) from chloride media

Rayco Lommelen, Brecht Dewulf, Jakob Bussé, Koen Binnemans

2024Separation and Purification Technology16 citationsDOIOpen Access PDF

Abstract

Hydrometallurgical processes are crucial to reducing the environmental impact of metal recovery, yet dealing with iron impurities is a major challenge. This paper presents a semi-empirical predictive thermodynamic model for iron removal from chloride media by solvent extraction with tri-n-butyl phosphate (TBP). This model is built upon the OLI mixed-solvent electrolyte framework (OLI-MSE). It goes beyond traditional thermodynamic models by incorporating the non-ideality of both the aqueous and organic phases in a single, chemistry-based thermodynamic model. On top of the OLI-MSE framework lies the chemical model that depicts the extraction of Fe(III) by forming an ion pair between the FeCl4– anions and protonated TBP (TBPH+) molecules in the organic phase. The iron(III)-containing ion pair in the organic phase is further stabilized by interactions with neutral TBP molecules. Developing the model required modeling the Fe(III) – chloride chemistry in the aqueous phase, optimizing the HCl extraction model, and fitting the parameters between FeCl4–, TBPH+, and TBP to experimental solvent extraction data. The resulting thermodynamic model can predict the solvent extraction of iron(III) from complex feed solutions by TBP in aliphatic diluents at all concentrations up to undiluted TBP. It can be used to calculate the equilibrium energies and composition, and the species present at equilibrium.

Topics & Concepts

ChemistryExtraction (chemistry)Aqueous solutionAqueous two-phase systemChlorideSolventDiluentProtonationPhase (matter)Inorganic chemistryIron(III) chlorideEquilibrium constantLiquid–liquid extractionIonPhysical chemistryOrganic chemistryExtraction and Separation ProcessesMetal Extraction and BioleachingMinerals Flotation and Separation Techniques