Study of Microbial Cultures for the Bioleaching of Scandium from Alumina Industry By-Products

The disposal of voluminous, highly alkaline, bauxite residue (BR), the industrial by-product of alumina production by the Bayer process, constitutes an intricate global environmental problem. BR, containing valuable metals such as rare-earth elements (REEs)—in particular, scandium (Sc)—can be used a...

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Bibliographic Details
Published in:Metals (Basel ) 2021-06, Vol.11 (6), p.951
Main Authors: Kiskira, Kyriaki, Lymperopoulou, Theopisti, Tsakanika, Lamprini-Areti, Pavlopoulos, Charalampos, Papadopoulou, Konstantina, Ochsenkühn, Klaus-Michael, Lyberatos, Gerasimos, Ochsenkühn-Petropoulou, Maria
Format: Article
Language:English
Subjects:
acetobacter
Algae
Aluminum oxide
Bacterial leaching
Bauxite
bauxite residue
Bayer process
bioleaching
Biomass
Byproducts
Experiments
industrial by-product
Leaching
Microorganisms
Organic acids
Rare earth elements
Red mud
Scandium
Synergistic effect
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Summary:The disposal of voluminous, highly alkaline, bauxite residue (BR), the industrial by-product of alumina production by the Bayer process, constitutes an intricate global environmental problem. BR, containing valuable metals such as rare-earth elements (REEs)—in particular, scandium (Sc)—can be used as a secondary source for REE extraction. The scope of this study was the investigation of bioleaching as an innovative and environmentally friendly approach for the extraction of Sc from BR. The bioleaching parameters were studied on Greek BR and experiments were performed using different microbial cultures and solid to liquid ratios (S/L). The maximum extraction of Sc was 42% using Acetobacter tropicalis in a one-step bioleaching process at 1% S/L. The main organic acids produced were acetic, oxalic, and citric. The bioleaching data indicated a probable synergistic effect of the different organic acids produced by microorganisms along with a more targeted leaching mechanism.
ISSN:2075-4701
2075-4701
DOI:10.3390/met11060951