Direct hematite flotation from an iron ore tailing using an innovative biosurfactant

The use of a biosurfactant (BS) in mineral flotation offers numerous advantages over conventional surfactants, such as their low toxicity, high degradation kinetics, and potential for selectively treating low-grade ores. In the present study, the use of a biosurfactant obtained from Rhodococcus opac...

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Published inSeparation science and technology Vol. 56; no. 17; pp. 2978 - 2988
Main Authors Pereira, Andreza Rafaela Morais, Hacha, Ronald Rojas, Torem, Maurício Leonardo, Merma, Antonio Gutierrez, Silvas, Flávia P.C., A, Abhilash
Format Journal Article
LanguageEnglish
Published Abingdon Taylor & Francis 22.11.2021
Taylor & Francis Ltd
Subjects
Batch flotation
Biodegradation
bioflotation
biosurfactant
Cleaning
Evaluation
Flotation
Haematite
Hematite
Iron
Iron compounds
Iron ore tailings
Iron ores
Kinetics
Micelles
Microflotation
Mine tailings
Ores
pH effects
Pollutants
Recovery
Rhodococcus
Rhodococcus opacus
Surface tension
Surfactants
Tailings
Toxicity
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Summary:The use of a biosurfactant (BS) in mineral flotation offers numerous advantages over conventional surfactants, such as their low toxicity, high degradation kinetics, and potential for selectively treating low-grade ores. In the present study, the use of a biosurfactant obtained from Rhodococcus opacus bacteria for the flotation of hematite from iron ore tailings was evaluated. The microflotation assessments were conducted in a modified Partridge-Smith cell, and the batch flotation studies were conducted in a mechanical cell (CDC - cell). In addition, the effects of the pH, biosurfactant concentration, and depressant concentration on hematite recovery were evaluated. The results confirmed the biosurfactant adsorption onto the hematite surface, and the biosurfactant decreased the surface tension of the water/gas interface. The critical micelle concentration (CMC) of the biosurfactant was approximately 1 g.L −1 . Hematite recovery was feasible at a pH of around 3. In microflotation tests, the iron grade and recovery reached approximately 37% and 30%, respectively. These values increased in batch flotation circuits, specifically in the cleaner stage, the iron grade reached approximately 44% and the recovery was approximately 65%. Thus, the current development proved that this particular treatment of ore tailings carries environmental and technical benefits as an appropriate alternative cleaning technology.
ISSN:0149-6395
1520-5754
DOI:10.1080/01496395.2021.1873374