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Understanding Cyanidation of Silver from Batch and Continuous Medium Temperature Pressure Oxidation Generated Residues

  • Conference paper
  • First Online:
Extraction 2018

Part of the book series: The Minerals, Metals & Materials Series ((MMMS))

  • 148 Accesses

Abstract

Pressure oxidative treatment of whole ores and/or mineral concentrates is used to leach or liberate metals of value for downstream recovery . Silver , when present, is often lost in processing, precipitating as a cyanide-insoluble jarosite in the residue. Depending on pressure oxidation conditions, the degree of silver loss to jarosite can vary dramatically. Batch bench-scale testwork is often performed to define that loss, and then assess the implications in continuous operations. This paper focusses specifically on the impact of CESL pressure oxidation conditions on silver recovery , and discusses limitations of batch bench-scale testing as well as means of overcoming these limitations to better predict silver recovery in the scale up from bench-scale to continuous operations. Since silver is only partially soluble in both sulphate and chloride media , it will gradually leach and deport to a jarosite as oxidation progresses. When a silver -insoluble anion, for example iodide , is dosed prior to oxidation , there is a marked improvement in silver recovery from batch -generated residue; however, that benefit is not consistently seen in continuous operations. The difference has been attributed to the dynamic solution conditions in the batch test, specifically the first few moments of oxidation . Using these principles, a predictive correlation has been established between initial leach concentrations of iron and acid and ultimate silver recovery with iodide addition.

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References

  1. Bolorundo SA, Dreisinger DB, Van Weert G (2003) Fundamental study of silver deportment during the pressure oxidation of sulphide ores and concentrates. Science Direct. https://ac.els-cdn.com/S089268750300164X/1-s2.0-S089268750300164X-main.pdf?_tid=3a021ffa-cba9-11e7-a958-00000aacb360&acdnat=1510931523_f4b6d2fd3afe24572a366dc88e733e38. Accessed 29 Jan 2018

  2. Bruce R, Mayhew K, Dempopoulos GP, Heidel A (2013) Arsenic stability and characterization of CESL process residues. Paper presented at the COM 2012, pressure hydromet proceedings, Niagara Falls, Ontario, 30 Sept–3 Oct 2013, p 281

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  3. Bolorunduro SA (2002) The chemical behaviour of silver in pressure oxidation of complex sulphide ores and concentrates. University of British Columbia. https://open.library.ubc.ca/cIRcle/collections/ubctheses/831/items/1.0078732. Accessed 29 Jan 2018

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Acknowledgements

Thank you to all Teck and Aurubis who were integral in the operation of both batch and pilot testing reported in this paper.

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Authors and Affiliations

  1. Teck Resources Limited, 12380 Horseshoe Way, Richmond, BC, V7A 4Z1, Canada

    R. T. Seaman & K. Mayhew

Authors
  1. R. T. Seaman
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  2. K. Mayhew
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Corresponding author

Correspondence to R. T. Seaman .

Editor information

Editors and Affiliations

  1. Kingston Process Metallurgy Inc., Kingston, Canada

    Boyd R. Davis

  2. Missouri University of Science and Technology, Rolla, USA

    Michael S. Moats

  3. Rio Tinto Kennecott Utah Copper Corporation, South Jordan, USA

    Shijie Wang

  4. RHI Magnesita, Leoben, Austria

    Dean Gregurek

  5. BBA Inc., Montreal, Canada

    Joël Kapusta

  6. Extractive Metallurgy Consultant, Kingston, Canada

    Thomas P. Battle

  7. Missouri University of Science and Technology, Rolla, USA

    Mark E. Schlesinger

  8. Aurubis, Hamburg, Germany

    Gerardo Raul Alvear Flores

  9. University of Queensland, Queensland, Australia

    Evgueni Jak

  10. XPS-Glencore, Falconbridge, Canada

    Graeme Goodall

  11. University of Utah, Salt Lake City, USA

    Michael L. Free

  12. University of British Columbia, Vancouver, Canada

    Edouard Asselin

  13. University of Lorraine, Vandœuvre-lès-Nancy, France

    Alexandre Chagnes

  14. University of British Columbia, Vancouver, Canada

    David Dreisinger

  15. Newmont Mining, Elko, USA

    Matthew Jeffrey

  16. University of Arizona, Tucson, USA

    Jaeheon Lee

  17. Miller Metallurgical Services Pty Ltd., Brisbane, Australia

    Graeme Miller

  18. University of Cape Town, Rondebosch, Australia

    Jochen Petersen

  19. Universidade Federal de Minas Gerais, Belo Horizonte, Brazil

    Virginia S. T. Ciminelli

  20. Shanghai University, Shanghai, China

    Qian Xu

  21. MetNetH20 Inc., Peterborough, Canada

    Ronald Molnar

  22. Hatch, Mississauga, Canada

    Jeff Adams

  23. University of British Columbia, Vancouver, Canada

    Wenying Liu

  24. SGS Minerals, Lakefield, Canada

    Niels Verbaan

  25. J.R. Goode and Associates Metallurgical Consulting, Toronto, Canada

    John Goode

  26. Avalon Rare Metals Inc., Toronto, Canada

    Ian M. London

  27. University of Toronto, Toronto, Canada

    Gisele Azimi

  28. SGS Minerals, Lakefield, Canada

    Alex Forstner

  29. Newmont Mining, Greenwood Village, USA

    Ronel Kappes

  30. Newmont Mining Corporation, Greenwood village, USA

    Tarun Bhambhani

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© 2018 The Minerals, Metals & Materials Society

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Cite this paper

Seaman, R.T., Mayhew, K. (2018). Understanding Cyanidation of Silver from Batch and Continuous Medium Temperature Pressure Oxidation Generated Residues. In: Davis, B., et al. Extraction 2018. The Minerals, Metals & Materials Series. Springer, Cham. https://doi.org/10.1007/978-3-319-95022-8_139

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