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Anode Reactivity Influence of the Baking Process

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Essential Readings in Light Metals

Abstract

Net carbon consumption is one of the parameters most frequently employed in characterizing anode performance in an aluminium reduction cell.

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References

  1. G.J. Houston, H.A. Oyez, Trondheim, “Consumption of Anode Carbon During Aluminium Electrolysis” 1, (ALUMINIUM 1985).

    Google Scholar 

  2. G.J. Houston, H.A. Oyez, Trondheim “Consumption of Anode Carbon During Aluminium Electrolysis” 2, (ALUMINIUM 1985).

    Google Scholar 

  3. W.K. Fischer and R. Perruchoud, “Factors Influencing the Carboxy- and Air- Reactivity Behaviour of Prebaked Anodes in Hall-Heroult Cells”, (AIME ANNUAL MEETING - LIGHT METALS 1986), 575 – 580.

    Google Scholar 

  4. T. Muftuoglu, J. Thonstad, H.A. Oye, “A Laboratory Study of the Anode Carbon Consumption During Aluminium Electrolysis”, (AIME ANNUAL MEETING - LIGHT METALS 1986), 557 – 562.

    Google Scholar 

  5. V.D. Lazarev, E.A. Yanko, V.V. Zakharov, “Methods of Evaluating the Quality of Anode Mass” (NON FERROUS METALS 19 (2) 1978), 38.

    Google Scholar 

  6. J.A. Osborne, “The Carboxyreactivity test. Its Potential and its Problems” (AIME ANNUAL MEETING - LIGHT METALS 1986), 557 – 562.

    Google Scholar 

  7. E.R. Cutshall, “Influence of Anode Baking Temperature and Current Density Upon Carbon Sloughing” (AIME ANNUAL MEETING - LIGHT METALS 1986), 629 – 637.

    Google Scholar 

  8. D.N. Hoidner, S.K. Nadkarni, D. Dutremblay, “Evaluation of the Uniformtity of Baking in Horizontal and Vertical Flue Ring Furnaces” (AIME ANNUAL MEETING - LIGHT METALS 1983), 797 – 804.

    Google Scholar 

  9. S.R. Brandtzaeg, O. Lid, J. Arntzen, “Anode Quality Related to Operational Parameters by Baking. A Comprehensive Large Scale Test” (AIME ANNUAL MEETING - LIGHT METALS 1987), 597 – 602.

    Google Scholar 

  10. C. Dreyer, “Horizontal Flue Ring Furnace Design and Process Control” (AIME ANNUAL MEETING-LIGHT METALS 1988), 303 – 306.

    Google Scholar 

  11. “Device and Method for Optimising Combustion in Furnaces used for Firing Carbon Blocks”, (WORLD PATENT W08707938).

    Google Scholar 

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Author information

Authors and Affiliations

  1. Aluminium Pechiney LRF - BP 114, 73300, Saint Jean de Maurienne, France

    C. Dreyer

Authors
  1. C. Dreyer
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Editor information

Editors and Affiliations

  1. Pacific Aluminium, Pacific Technology Centre, Singapore

    Alan Tomsett (Technical Director) (Technical Director)

  2. TMS Light Metals Electrode Technology for Aluminum Production Symposium, USA

    John Johnson (Chair and Co-Chair) (Chair and Co-Chair)

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© 2016 The Minerals, Metals & Materials Society

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Dreyer, C. (2016). Anode Reactivity Influence of the Baking Process. In: Tomsett, A., Johnson, J. (eds) Essential Readings in Light Metals. Springer, Cham. https://doi.org/10.1007/978-3-319-48200-2_64

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