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Simulation of Solvent Extraction Circuits for the Separation of Rare Earth Elements

by Boulanger, Jean-François , Bazin, Claude , Turgeon, Keven

in Anniversaries / Aqueous solutions / Calibration / Capital expenditures / Chemical reactions / Circuit design / Circuits / Design / Earth / Empirical analysis / Mathematical models / Methods / Mineral processing / Minerals / Mixer-settlers / Purity / Rare earth compounds / Rare earth elements / Rare earth metals / Separation / Settlers / Simulation / Simulation methods / Solvent extraction / Solvent extraction processes / Solvents / Washing

2023

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Simulation of Solvent Extraction Circuits for the Separation of Rare Earth Elements

by Boulanger, Jean-François , Bazin, Claude , Turgeon, Keven

2023

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Simulation of Solvent Extraction Circuits for the Separation of Rare Earth Elements

by Boulanger, Jean-François , Bazin, Claude , Turgeon, Keven

2023

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Journal Article

Simulation of Solvent Extraction Circuits for the Separation of Rare Earth Elements

Boulanger, Jean-François,

Bazin, Claude,

Turgeon, Keven

2023

Overview

The separation of Rare Earth Elements (REEs) is an important step in the valorization of REE ore and aims at producing individual rare earth compounds for the market. The separation is carried out industrially by solvent extraction (SX) using interconnected circuits consisting of cascades of mixer-settlers. The design of a REE separation circuit implies the selection of the operating conditions and of the number of mixer-settlers required to achieve a target degree of purity for the separated elements. This design work is either carried out by piloting a circuit or using a mathematical simulation. Independent of the method, the world expertise in this area is limited. This paper describes a simulation method requiring a minimum of calibration effort, which can be used to design a complete REE separation plant. The simulation enables assessment of the effect of the number of mixer-settlers per extraction, the scrubbing and stripping stage, as well as the pH of the aqueous solution and organic-phase contents of free and loaded extractant on the purity of the separated REEs. The simulation tool presented here has been developed from a fundamental analysis of the chemical reactions involved in the solvent extraction process. Unlike most of the simulation methods documented in the literature, the method requires no empirical calibration. The proposed method is validated using data from laboratory batch tests and with published data from continuous pilot and industrial REE separation circuits. The application of the simulation tool is illustrated with the planning of the test conditions for a forthcoming pilot test work and with the simulation of a 9-REE product SX separation plant.

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Publisher

MDPI AG

Subject

Anniversaries

/ Aqueous solutions

/ Calibration

/ Capital expenditures

/ Chemical reactions

/ Circuit design

/ Circuits