Development of a Combined Leaching and Ion-Exchange System for Valorisation of Spent Potlining Waste

This work aims to contribute to addressing the global challenge of recycling and valorising spent potlining; a hazardous solid waste product of the aluminium smelting industry. This has been achieved using a simple two-step chemical leaching treatment of the waste, using dilute lixiviants, namely Na...

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Published inWaste and biomass valorization Vol. 11; no. 10; pp. 5467 - 5481
Main Authors Robshaw, Thomas J., Bonser, Keith, Coxhill, Glyn, Dawson, Robert, Ogden, Mark D.
Format Journal Article
LanguageEnglish
Published Dordrecht Springer Netherlands 01.10.2020
Springer Nature B.V
Subjects
Aluminum
Ambient temperature
Caustic leaching
Composition
Contaminants
Cryolite
Electrolytic cell linings
Engineering
Environment
Environmental Engineering/Biotechnology
Fluorides
Hazardous wastes
Hydrogen peroxide
Industrial Pollution Prevention
Ion exchange
Ion exchange resins
Leachates
Leaching
Metals
Mineralogy
Morphology
Original Paper
Refractory materials
Renewable and Green Energy
Smelting
Sodium hydroxide
Solid wastes
Spectroscopy
Sulfuric acid
Waste Management/Waste Technology
Waste treatment
Spent potlining
Ion-exchange
Resource recovery
Aluminium
Fluoride
Leaching
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Summary:This work aims to contribute to addressing the global challenge of recycling and valorising spent potlining; a hazardous solid waste product of the aluminium smelting industry. This has been achieved using a simple two-step chemical leaching treatment of the waste, using dilute lixiviants, namely NaOH, H 2 O 2 and H 2 SO 4 , and at ambient temperature. The potlining and resulting leachate were characterised by spectroscopy and microscopy to determine the success of the treatment, as well as the morphology and mineralogy of the solid waste. This confirmed that the potlining samples were a mixture of contaminated graphite and refractory materials, with high variability of composition. A large quantity of fluoride was solublised by the leaching process, as well as numerous metals, some of them toxic. The acidic and caustic leachates were combined and the aluminium and fluoride components were selectively extracted, using a modified ion-exchange resin, in fixed-bed column experiments. The resin performed above expectations, based on previous studies, which used a simulant feed, extracting fluoride efficiently from leachates of significantly different compositions. Finally, the fluoride and aluminium were coeluted from the column, using NaOH as the eluent, creating an enriched aqueous stream, relatively free from contaminants, from which recovery of synthetic cryolite can be attempted. Overall, the study accomplished several steps in the development of a fully-realised spent potlining treatment system. Graphic Abstract
ISSN:1877-2641
1877-265X
DOI:10.1007/s12649-020-00954-1