Recovery of Metals from Secondary Raw Materials by Coupled Electroleaching and Electrodeposition in Aqueous or Ionic Liquid Media

• Published in: Metals (Basel ) Vol. 8; no. 7; p. 556
• Main Authors: Leclerc, Nathalie, Legeai, Sophie, Balva, Maxime, Hazotte, Claire, Comel, Julien, Lapicque, François, Billy, Emmanuel, Meux, Eric
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 01.07.2018; MDPI
• Subjects: Accumulators; Cadmium; Chemical and Process Engineering; Chemical engineering; Electrochemistry; Electrode materials; Electrodeposition; Electrodes; electroleaching; Engineering Sciences; Fuel cells; Investigations; Ionic liquids; Ions; Manganese dioxide; Materials; Materials recovery; Media; metal recovery; Metals; Nickel cadmium batteries; Organic chemistry; Phase transitions; Physical chemistry; Raw materials; Recovering; secondary raw materials; Solvents; Speciation; France; Germany; metal recovery; ionic liquids; electrodeposition; electroleaching; secondary raw materials
• ISSN: 2075-4701; 2075-4701
• DOI: 10.3390/met8070556

This paper presents recent views on a hybrid process for beneficiation of secondary raw materials by combined electroleaching of targeted metals and electrodeposition. On the basis of several case studies with aqueous solutions or in ionic liquid media, the paper describes the potential and the limits of the novel, hybrid technique, together with the methodology employed, combining determination of speciation, physical chemistry, electrochemistry, and chemical engineering. On one hand, the case of electroleaching/electrodeposition (E/E) process in aqueous media, although often investigated at the bench scale, appears nevertheless relatively mature, because of the developed methodology, and the appreciable current density allowed, and so it can be used to successfully treat electrode materials of spent Zn/MnO2 batteries or Ni/Cd accumulators and Waelz oxide. On the other hand, the use of ionic liquids as promising media for the recovery of various metals can be considered for other types of wastes, as shown here for the case of electrodes of aged fuel cells. The combined (E/E) technique could be successfully used for the above waste, in particular by the tricky selection of ionic liquid media. Nevertheless, further investigations in physical chemistry and chemical engineering appear necessary for possible developments of larger-scale processes for the recovery of these strategic resources.