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Mathematical Modeling of Waterless Matte Granulator for Debottlenecking of Conventional Sulfide Smelters

  • Conference paper
  • First Online:
Extraction 2018

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

Abstract

Within conventional copper and nickel -copper sulfide smelters, ladles of molten matte are fed into converters. These converters blast oxygen-enriched air into the matte, thereby eliminating iron and sulfur . The converting reactions are exothermic and, indeed, the converter heat balance is often a limiting consideration on the smelter throughput. If a portion of the matte were fed in solidified (granulated) form, this would support higher oxygen enrichment, and lower volumes of converter offgas, allowing higher throughput. This approach is not applied in conventional smelters, partly because of the copious amounts of water that must be evaporated in typical granulators, as in the Kennecott-Outotec process. The current paper recalls a waterless matte granulator that had been pioneered in the 1990’s, and is applicable to conventional smelters. A mathematical formulation is presented that can be used in the context of simulation-based optimization , to estimate the size and impact of waterless matte granulation .

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References

  1. Mucciardi F, Jin N, Palumbo E (1998) Modelling a novel, air-cooled, twin roll caster. Paper presented at the 37th Annual conference of metallurgists of CIM, Calgary, Alberta, 16–19 Aug 1998

    Google Scholar 

  2. Mucciardi F, Palumbo E, Jin N (1999) A waterless caster for matte/slag granulation. Paper presented at the 4th International copper conference, Phoenix, Arizona 10–13 Oct 1999

    Google Scholar 

  3. Navarra A, Mucciardi F (2015) Discrete event simulation to quantify upgrades of Peirce-Smith converting aisles. Paper presented at the 37th International symposium of application of computers and operations research in the mineral industry, Fairbanks, Alaska, 23–27 May 2015

    Google Scholar 

  4. Navarra A, Kuan SH, Parra R, Davis B, Mucciardi F (2016) Debottlenecking of conventional copper smelters. Paper presented at the 6th International conference on industrial engineering and operations management, Kuala Lumpur, Malaysia, 8–10 Mar 2016

    Google Scholar 

  5. Navarra A, Marambio H, Oyarzún F, Parra R, Mucciardi R (2016) System dynamics and discrete event simulation of copper smelters. Miner Metall Process 34(2):96–106

    Google Scholar 

  6. Kojo I, Lahtinen M, Miettinen E (2009) Flash converting – Sustainable technology now and in the future. Paper presented at the 139th TMS annual meeting, San Francisco, California, 15–19 Feb 2009

    Google Scholar 

  7. Kleijnen J, Wan J (2007) Optimization of simulated systems: optquest and alternatives. Simul Model Pract Theory 15(3):354–362

    Article  Google Scholar 

  8. Audet C, Denis J Jr, Le Digabel S (2012) Trade-off studies in blackbox optimization. Optim Meth Softw 27(4–5):613–624

    Article  Google Scholar 

  9. Tribes C, Dubé J-F, Trépanier J-Y (2005) Decomposition of multidisciplinary optimization problems: formulations and applications to a simplified wing design. Eng Optim 37(8):775–796

    Article  Google Scholar 

  10. Marsden A (2014) Optimization in cardiovascular modeling. Annu Rev Fluid Mech 46:519–546

    Article  Google Scholar 

  11. Burden R, Faires J, Burden A (2016) Numerical solutions of nonlinear systems of equations, Chapter 10. In: Numerical analysis. Cengage Learning, Boston, Massachusetts, pp 641–683

    Google Scholar 

  12. Meyer C (2000) Inverses of sums and sensitivity, Section 3.8. In: Matrix analysis and applied linear algebra. Society for Industrial and Applied Mathematics, Philadelphia, Pennsylvania, pp 124–131

    Google Scholar 

  13. Crawley E, Malmqvist J, Östlund S, Brodeur D, Edström K (2014) Adapting and implementing a CDIO approach, Chapter 8. In: Rethinking engineering education—the CDIO approach. Springer, New York, pp 181–207

    Chapter  Google Scholar 

Download references

Author information

Authors and Affiliations

  1. Universidad Católica Del Norte, 0610 Angamos, Antofagasta, Chile

    A. Navarra

  2. McGill University, 3610 University Street, Montreal, QC, H3A 0C5, Canada

    F. Mucciardi

Authors
  1. A. Navarra
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  2. F. Mucciardi
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Corresponding author

Correspondence to A. Navarra .

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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Navarra, A., Mucciardi, F. (2018). Mathematical Modeling of Waterless Matte Granulator for Debottlenecking of Conventional Sulfide Smelters. In: Davis, B., et al. Extraction 2018. The Minerals, Metals & Materials Series. Springer, Cham. https://doi.org/10.1007/978-3-319-95022-8_16

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