A Review on Hydrometallurgical Processes for the Recovery of Valuable Metals from Spent Catalysts and Life Cycle Analysis Perspective

A Review on Hydrometallurgical Processes for the Recovery of Valuable Metals from Spent Catalysts and Life Cycle Analysis Perspective

Recovery of valuable metals such as cobalt, molybdenum, nickel, and vanadium from spent catalysts has attracted much attention owing to the gradual depletion of high-grade ores. In this work, several hydrometallurgical methods have been reviewed for recovery of these metals from several spent cataly...

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Bibliographic Details
Published in:Mineral processing and extractive metallurgy review Vol. 42; no. 5; pp. 335 - 354
Main Authors: Le, Minh Nhan, Lee, Man Seung
Format: Journal Article
Language:English
Published: Philadelphia Taylor & Francis 04-07-2021
Taylor & Francis Ltd
Subjects:
Acid leaching
Adsorption
Catalysts
Chelating agents
Chelation
Chemical precipitation
Cobalt
Depletion
Dissolution
Economic impact
Employment
Environmental aspects
Environmental assessment
Environmental impact
Heat exchange
Heat treatment
Heat treatments
Heavy metals
Hydrometallurgical process
Hydrometallurgy
Ion exchange
Leaching
Life cycle analysis
Life cycle assessment
Life cycles
Materials recovery
Metal ions
Metals
Molybdenum
Nickel
Solvent extraction
Solvent extraction processes
Solvents
spent catalysts
valuable metals
Vanadium
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Summary:Recovery of valuable metals such as cobalt, molybdenum, nickel, and vanadium from spent catalysts has attracted much attention owing to the gradual depletion of high-grade ores. In this work, several hydrometallurgical methods have been reviewed for recovery of these metals from several spent catalysts. The main methods include adsorption, chelation, ion exchange, leaching, precipitation, and solvent extraction. The disadvantage of precipitation lies in the difficulty in recovering pure products. Acid leaching is generally preferred to basic leaching in the industry owing to high dissolution of valuable metals. Solvent extraction is effective in the separation of valuable metals. The adsorption and complexing with chelating agents offer useful means for selective metal recovery although the scale of its application in the industry is still limited. Ion exchange is suitable for the purification of metal ions. The combination of these techniques is recommended in developing a process. The heat treatment of spent catalysts facilitates the dissolution of valuable metals by the leaching and then the dissolved metal ions can be recovered by solvent extraction. The assessment of the environmental impacts, economics, and prediction of the industrial applicability of some processes have been discussed by the life cycle analysis (LCA). Employment of LCA method to evaluate the environmental aspects during the recovery of metals from spent catalysts is necessary in further research.
ISSN:0882-7508
1547-7401
DOI:10.1080/08827508.2020.1726914