Cobalt mineralogy at the Iron Creek Deposit, Idaho cobalt belt, USA; implications for domestic critical mineral production

Current U.S. policies aim to establish domestic supply chains of critical minerals for the energy transition. The Iron Creek deposit in the Idaho cobalt belt (ICB) is one of the most promising cobalt (Co) targets. Our case study illustrates the importance of mineralogy in strategic evaluations of cr...

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Bibliographic Details
Published in:Geology (Boulder) 2023-08, Vol.51 (8), p.773-778
Main Authors: Holley, E. A, Zaronikola, N, Trouba, J, Pfaff, K, Thompson, J, Spiller, E, Anderson, C, Eggert, R
Format: Article
Language:English
Subjects:
Antimony
Arsenopyrite
Autoclaves
Bacterial leaching
Belts
Bismuth
Chalcopyrite
Coastal inlets
Cobalt
cobalt ores
Copper
Creeks
Economic geology
Energy transition
Geology
Heavy metals
ICP mass spectra
Idaho
Idaho cobalt belt
Iron
Iron Creek Deposit
laser ablation
laser methods
Lead
mass spectra
metal ores
Metals
metamorphic rocks
metasedimentary rocks
Mineralogy
Minerals
Nickel
Ores
Pyrite
Recovery
Selenium
Silver
Smelters
spectra
Strategic materials
sulfides
Sulphides
Supply chains
Tellurium
trace elements
United States
Zinc
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Summary:Current U.S. policies aim to establish domestic supply chains of critical minerals for the energy transition. The Iron Creek deposit in the Idaho cobalt belt (ICB) is one of the most promising cobalt (Co) targets. Our case study illustrates the importance of mineralogy in strategic evaluations of critical mineral potential. Most of the Co at Iron Creek occurs as Fe substitution in pyrite, with lattice-bound and inclusion-hosted Ag, As, Bi, Ni, Pb, Se, Te ± trace Au and Sb. Cobalt also occurs in minor cattierite-vaesite. The Co minerals are intergrown with Co-poor chalcopyrite hosting Cu ± minor In and Zn. Worldwide, most Co is recovered from deposits mineralogically distinct from the ICB, and the United States currently lacks infrastructure to recover this Co and its associated metals. ICB ore minerals could be processed by autoclave, roaster, smelter, bioleach, or heap leach. Recovery of the Ag, As, Au, Bi, In, Pb, Se, Te, and Zn would be costly by autoclave, and construction of a custom smelter for ICB ores is likely uneconomic, so these elements would become waste irrespective of criticality. The Co-Fe and Co-As sulfide minerals are most suitable for Co and Ni recovery by a hydrometallurgical autoclave process, with potential pretreatment of cobaltiferous pyrite/arsenopyrite in an inert-atmosphere roaster, in new domestic or anticipated international facilities. The ICB is the second largest known Co resource in the United States. Consideration of ore mineralogy in the ICB is essential in strategies for domestic production.
ISSN:0091-7613
1943-2682
DOI:10.1130/G51160.1