Extraction of tellurium as volatile fluoride

Reference number
Coordinator Luleå tekniska universitet - Avd för kemiteknik
Funding from Vinnova SEK 500 000
Project duration September 2016 - February 2017
Status Completed
Venture The strategic innovation programme for mining and metal recovery – STRIM

Purpose and goal

In this project, we aimed at validating the concept of extracting tellurium by an innovative method called liquid-gas separation: the LIGEX process. This process requires fluorination of tellurium into a volatile fluoride. The goals were therefore to identify the most promising fluorination routes depending on the starting material and to perform fluorination of tellurium at lab scale. Both goals were achieved. A promising method to fluorinate tellurium oxide was identified and developed experimentally.

Expected results and effects

Tellurium in the starting material must be already oxidized in order to ease fluorination. We managed to fluorinate tellurium oxide TeO2 into TeF5- ions in water solutions. However, it is not sufficient in order to obtain volatile TeF6 with the LIGEX process. Therefore, this method must be developed further by using TeO3 instead of TeO2 in an attempt to form TeF7- ions. It should be possible to extract these ions in aqueous solution by solvent extraction and to subsequently release TeF6 with high purity, which would be of high scientific and innovative impact.

Planned approach and implementation

The project consisted of 2 parts: 1. Calculations of thermodynamic equilibria in order to evaluate the possibility of fluorinating tellurium in metallic (such as in Boliden´s copper telluride) or oxide form with hydrogen fluoride (HF) or fluorine. 2. An experimental study on the fluorination of tellurium oxide TeO2 with HF. Two different methods were tested, namely direct fluorination with anhydrous HF and dissolution in a diluted aqueous solution of HF containing fluoride salts of alkali metals. Only the second method was successful.

The project description has been provided by the project members themselves and the text has not been looked at by our editors.

Last updated 25 November 2019

Reference number 2016-02623

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