RECOVERY OF METALS FROM ZINC-CARBON AND ALKALINE SPENT BATTERIES BY USING AUTOMOTIVE SHREDDER RESIDUES
Articolo
Data di Pubblicazione:
2015
Abstract:
The main aim of this work is the thermal recovery of manganese and zinc from a mixture of
zinc-carbon and alkaline spent batteries containing 40.9% of Mn and 30.1% of Zn after a preliminary
physical treatment followed by the removal of mercury. Separation of the metals is carried
out on the basis of their different phase change temperatures, in fact the boiling point of
mercury and zinc are 357 °C and 906 °C, respectively, and the melting point of Mn3O4, the main
Mn-bearing phase in the mixture, is 1564 °C.
After wet comminution and sieving to remove the anodic collectors and most of the chlorides
contained in the mixture, chemical and X-ray powder diffraction (XRPD) analyses were performed.
The mixture was initially heated in an air flow at temperatures ranging from 300 °C to
400 °C to eliminate mercury, then, the flow of air was turned into an inert carbon dioxide atmosphere.
The volatilization of metallic zinc starts at a temperature 850 °C. At higher temperature the
reduction of zinc oxide and subsequent volatilization of metallic zinc is carried out by the carbon
present in the original mixture or in the automotive shredder residue (car fluff) added from the
outside. By optimization of temperature, stoichiometric ratio and residence time, a product suitable
for production of new batteries after refining was obtained. The treatment residue consisted
of manganese and iron oxides that could be used to produce manganese-iron alloys.
zinc-carbon and alkaline spent batteries containing 40.9% of Mn and 30.1% of Zn after a preliminary
physical treatment followed by the removal of mercury. Separation of the metals is carried
out on the basis of their different phase change temperatures, in fact the boiling point of
mercury and zinc are 357 °C and 906 °C, respectively, and the melting point of Mn3O4, the main
Mn-bearing phase in the mixture, is 1564 °C.
After wet comminution and sieving to remove the anodic collectors and most of the chlorides
contained in the mixture, chemical and X-ray powder diffraction (XRPD) analyses were performed.
The mixture was initially heated in an air flow at temperatures ranging from 300 °C to
400 °C to eliminate mercury, then, the flow of air was turned into an inert carbon dioxide atmosphere.
The volatilization of metallic zinc starts at a temperature 850 °C. At higher temperature the
reduction of zinc oxide and subsequent volatilization of metallic zinc is carried out by the carbon
present in the original mixture or in the automotive shredder residue (car fluff) added from the
outside. By optimization of temperature, stoichiometric ratio and residence time, a product suitable
for production of new batteries after refining was obtained. The treatment residue consisted
of manganese and iron oxides that could be used to produce manganese-iron alloys.
Tipologia CRIS:
01.01 Articolo in rivista
Keywords:
Spent batteries; Metals recovery; Manganese; Zinc; Thermal process; Automotive Shedder Residue; Recycling
Elenco autori:
Belardi, Girolamo
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