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Effect of Rinkalore Mixture on the Flotation of Mupine Oxidised Ores, South DRCongo

Published online by Cambridge University Press:  01 February 2011

Ghislain Tshilombo Kabamba ,
Christian Muteba Mukuna  and
Kongolo Kitala
Ghislain Tshilombo Kabamba
Affiliation:
[email protected], CSIR, Materials Science and Manufacturing, Pretoria, South Africa
Christian Muteba Mukuna
Affiliation:
[email protected], First Quantum Minerals Ltd, Lubumbashi, Congo, The Democratic Republic of the
Kongolo Kitala
Affiliation:
Department of Metallurgy, Faculty of Engineering, University of Lubumbashi, DR Congo
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Abstract

In this study, flotation of oxidised ores rich in copper and cobalt from Mupine deposit in the Democratic Republic of Congo had been investigated. This ore contains 4.85% copper, 0.16% cobalt. The recovery of copper and cobalt was performed using flotation to increase the concentration of copper and cobalt. Flotation of the oxidized ore was performed with fatty acid type Rinkalore. Copper and cobalt present in the ore were concentrated with optimal doses of sodium silicate, Rinkalore mixture of 500 g/t, 1500 g/t respectively and optimum tall oil and pH of 23% and 9.5 respectively. The influence of Rinkalore Bioex, Rinkalore Booster Q, pH and sodium silicate on optimum operating conditions were studied. Improved performance of operating conditions was obtained with the mixture of reagents Rinkalores 10 and Booster Q. Primary feed titrating 8.70% copper and 0.31% cobalt respectively had a recovery yield of 53% and 34% respectively, and rougher concentrate titrating 8.13% copper and 0.33 % Cobalt respectively had a recovery yield of 97% and 70% respectively.

Keywords

CuCodispersant
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 1151: Symposium SS – Selecting and Qualifying New Materials for Use in Regulated Industries , 2008 , 1151-SS02-03
Copyright
Copyright © Materials Research Society 2009

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References

REFERENCES

1. Dw, Fuestenau, 1962, Froth flotation, Mining Chemical handbook, Cyanamid.Google Scholar
2. BA, Wills, 1981, Mineral processing technology, International series on Materials Science and Technology, 2nd edition, volume 29.Google Scholar
3. Blazy, P, 1977, La valorisation des minerais, Presse Universitaires de France.Google Scholar
4. R, Ziyadanogullari et al, 2005, A new application for flotation of oxidized copper ore Journal of Minerals and Materials Characterization and Engineering, Vol.4, No. 2, pp6773 Google Scholar
5. Holman, et al., 1977, Flotation of oxidized copper ores, US patent 4011072Google Scholar
6. Ja, Brierley et al, 2001, Present and future commercial applications of biohydrometallurgy, Hydrometallurgy, Vol. 59, Pp 233239 Google Scholar