MMIJ 2024, Akita

Presentation information (2024/08/07 Ver.)

Special session

(Special session) Advanced Studies on mineral processing and metallurgical technologies for metals resources conducted by JOGMEC

(Hybrid)

Tue. Sep 10, 2024 8:45 AM - 12:00 PM Room-5 (301, 3F, General Education Bldg. 2)

Chairperson:砂田 和也(JOGMEC)

(Presentation: 20 minutes allotted for lecture and 5 minutes for Q&A out of 25 minutes per presentation)
(Presentation: 40 minutes allotted for lecture and 10 minutes for Q&A out of 50 minutes per presentation)

10:35 AM - 11:00 AM

[1501-06-04] Advancement in Cobalt Recovery from Tailings: An Investigation of Flotation Parameter and Carrier Flotation Technology

○Refilwe Magwaneng1, Tatsuhiro Ono1, Shuichi Kuwaba1, Michihiro Akahori1, Taro Kamiya1, Anita Parbhakar-Fox2, Vladimir Lisitsin3 (1. Japan Organization for Metals and Energy Security, Japan, 2. Sustainable Minerals Institute, University of Queensland, Australia, 3. Geological Survey of Queensland, Australia)

Chairperson:砂田 和也(JOGMEC)

Keywords:Cobalt, Flotation, Carrier Flotation, Tailings

In this study, an in-depth investigation of flotation processing technology for the extraction of cobalt from mine tailings is examined. A variety of parameters including pulp density, stirring speed, aeration, pH and reagent type and dosage was carried out. The research utilizes three distinct types of tailing feed, sourced from Australian mining operation and tailing dams. The mineralogical analysis carried out by MLA reveals that cobalt is primarily hosted in either pyrite or cobaltite, with these minerals presenting as fine particles. Given these findings, a novel carrier flotation technology is introduced to enhance the flotation of fine cobalt particles. Preliminary tests using this small-large size particle attachment technology indicate that recovery of cobalt increased to more than 70% albeit a decline in grade. Conversely, the investigation of flotation parameters suggests that cobalt recovery of more than 65% is achievable, with a slightly higher grade than that observed with carrier flotation. This paper provides valuable insights into the optimization of cobalt extraction from tailings, contributing to a step towards the diversification of cobalt supply sources for a carbon-neutral society.

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