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Role of Research in Non-ferrous Metallurgy Development—Peter Hayes’ Contributions to Modern Pyrometallurgy Read chapter Read first chapter

2018 | OriginalPaper | Chapter

Extraction of Cobalt and Nickel from a Pyrrhotite Rich Tailings Sample via Bioleaching

Authors : R. Cameron, B. Yu, C. Baxter, A. Plugatyr, R. Lastra, M. Dal-Cin, P. H. J. Mercier, N. Perreault

Published in: Extraction 2018

Publisher: Springer International Publishing

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Abstract

The growing use and acceptance of electric vehicles (EV), as evidenced by the record sales of over 750 thousand vehicles in 2016 and a current global EV stock of 2 million vehicles, is putting pressure on sourcing raw materials such as cobalt, and to a lesser extent, nickel. Global supply is poorly diversified, with 50–60% of global cobalt production sourced solely from the Democratic Republic of Congo (DRC). One potential source for cobalt and nickel are low-grade nickeliferous pyrrhotite tailings, of which 50–100 million tonnes are present in the Sudbury area alone. This paper presents the extraction of cobalt and nickel from this material using a combination of flotation and bioleaching technologies. The findings of a high-level techno-economic analysis of the proposed processing flowsheet are presented.

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previous chapter REE Recovery from the Fern D. Dichotoma by Acid Oxalic Precipitation After Direct Leaching with EDTA
next chapter Vanadium Extraction from Low Concentrated Iron Bearing Sources by a New Method
Literature
1.
Peek E, Barnes A, Tuzun A (2011) Nickeliferous pyrrhotite–“Waste or resource?”. Miner Eng 24:625–637CrossRef
2.
Cameron RA, Yeung CW, Greer CW, Gould DG, Mortazavi S, Bedard PL, Morin L, Lortie L, Dinardo O, Kennedy KJ (2010) The bacterial community structure during bioleaching of a low-grade nickel sulphide ore in stirred-tank reactors at different combinations of temperature and pH. Hydrometallurgy 104:207–215CrossRef
3.
Watling HR (2006) The bioleaching of sulphide minerals with emphasis on copper sulphides-a review. Hydrometallurgy 84:81–108CrossRef
4.
Cameron RA, Lastra R, Mortazavi S, Bedard PL, Morin L, Gould WD, Kennedy KJ (2009) Bioleaching of a low-grade ultramafic nickel sulphide ore in stirred-tank reactors at elevated pH. Hydrometallurgy 97:213–220CrossRef
5.
Cameron RA, Lastra R, Mortazavi S, Gould WD, Thibault Y, Bedard PL, Morin L, Kennedy KJ (2009) Elevated-pH bioleaching of a low-grade ultramafic nickel sulphide ore in stirred-tank reactors at 5–45 °C. Hydrometallurgy 99:77–83CrossRef
6.
Cameron RA (2011) Bioleaching of low-grade nickel sulphide ore at elevated pH, PhD thesis, University of Ottawa, Ottawa, Canada
7.
Cameron RA, Lastra R, Gould WD, Mortazavi S, Thibault Y, Bedard PL, Morin L, Koren DW, Kennedy KJ (2013) Bioleaching of six nickel sulphide ores with differing mineralogies in stirred-tank reactors at 30 °C. Miner Eng 49:172–183CrossRef
8.
Cameron RA, Lastra R, Thibault Y, Morin L, Gould WD (2017) Stirred-tank bioleaching of pyrrhotite-rich tailings sample. In: MetSoc COM 2017, Vancouver, B.C., 27–30 August
Metadata
Title
Extraction of Cobalt and Nickel from a Pyrrhotite Rich Tailings Sample via Bioleaching
Authors
R. Cameron
B. Yu
C. Baxter
A. Plugatyr
R. Lastra
M. Dal-Cin
P. H. J. Mercier
N. Perreault
Copyright Year
2018
Book
Extraction 2018

Print ISBN: 978-3-319-95021-1

Electronic ISBN: 978-3-319-95022-8

Copyright Year: 2018

DOI
https://doi.org/10.1007/978-3-319-95022-8_225

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