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2017 | OriginalPaper | Chapter

Investigation of Spent Refractory Lining in an Anode Baking Furnace

Authors : Trond Brandvik, Zhaohui Wang, Arne Petter Ratvik, Tor Grande

Published in: Light Metals 2017

Publisher: Springer International Publishing

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Abstract

The refractory lining in anode baking furnaces is exposed to harsh chemical environment and thermal cycling. Spent refractory lining from an anode baking furnace after 4000 days in operation was investigated. Variation in the density and porosity across the bricks revealed that carbon build up in pores had taken place towards the anode side. The spent refractory bricks were investigated with respect to chemical and mineralogical composition by X-ray diffraction and electron microscopy. No significant change in the mineralogical composition across the brick could be detected by X-ray diffraction. Fluoride was not found in the bricks, while traces of sodium was shown to accumulate together with other impurities in the bricks. The changes in the chemical and mineralogical composition across the bricks are discussed in relation to possible chemical reactions taking place during anode baking.

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P. Prigent, M.L. Bouchetou, Gaseous corrosion of Alumino-Silicate Refractories in Anode Baking Furnaces used for Aluminium Produciton Part 1. Interceram 58, 121–126 (2009)

P. Prigent, M.L. Bouchetou, Gaseous Corrosion of Alumino-Silicate Refractories in Anode Baking Furnaces used for Aluminium Produciton Part 2. Interceram 58, 202–209 (2009)

P. Prigent et al., The effect of the addition of fine andalusite particles in refractory bricks on gaseous corrosion. JOM 60, 58–63 (2008)CrossRef

F.H. Becker, F. Goede, Ring pit furnaces for baking of high quality anodes—an overview. Aluminium 82, 9 (2006)

A. Radjenović, Properties of carbon anode components for aluminium production. Nafta 63, 111–114 (2012)

F. Brunk, orrosion and behavior of Firecal Bricks usen in the flues of open anode baking furnaces. Light Metals, 641–646 (1995)

C. Schøning, T. Grande, O.-J. Siljan, Cathode refractory materials for aluminium reduction cells. Light Metals, 231–238 (1999)

O.-J. Siljan, T. Grande, C. Schøning, Refractories for aluminium electrolysis cells part 1—Deterioration mechanisms based on phase equilibria. Aluminium 77, 294–300 (2001)

O.-J. Siljan, T. Grande, C. Schøning, Refractories for aluminium electrolysis cells part 2—physical properties of penerating melt, reduction by metals and volatile fluorides. Aluminium 77, 385–390 (2001)

10.

O.-J. Siljan, T. Grande, C. Schøning, Refractories for aluminium electrolysis cells part 3—laboratory test for cryolite resistance. Aluminium 77, 610–615 (2001)

11.

O.-J. Siljan, T. Grande, C. Schøning, Refractories for aluminium electrolysis cells part 4—comparison of laboratory investigations and autopsies of pot linings. Aluminium 77, 809–814 (2001)

12.

O.-J. Siljan, C. Schoning, T. Grande, State-of-the-art alumino-silicate refractories for al electrolysis cells. JOM 54, 46–55 (2002)CrossRef

13.

C. Schøning, T. Grande, The stability of refractory oxides in sodium-rich environments. JOM 58, 58–61 (2006)CrossRef

14.

K. Tschope et al., Chemical degradation of cathode linings in hall-heroult cells—an autopsy study of three spent pot linings. Metall. Mater. Trans. B 43B, 290–301 (2012)CrossRef

15.

K. Tschöpe, J. Rutlin, T. Grande, Chemical degradation map for sodium attack in refractory linings. Light Metals, 871–876 (2010)

16.

J. Butter, A. Bongers, Alterations of anode baking furnace bricks during operation. Light Metals, 633–639 (1995)

17.

P. Prigent, M.L. Bouchetou, J. Poirier, Andalusite: an amazing refractory raw material with excellent corrosion resistance to sodium vapours. Ceram. Int. 37(7), 2287–2296 (2011)CrossRef

18.

T. Brandvik, A.P. Ratvik, T. Grande, Thermodynamic assessment of the chemical durability of refractory lining in anode baking furnaces. ICSOBA (2016)

Title: Investigation of Spent Refractory Lining in an Anode Baking Furnace
Authors: Trond Brandvik
Zhaohui Wang
Arne Petter Ratvik
Tor Grande
Publisher: Springer International Publishing
Book: Light Metals 2017
Print ISBN: 978-3-319-51540-3

Electronic ISBN: 978-3-319-51541-0

Copyright Year: 2017
DOI: https://doi.org/10.1007/978-3-319-51541-0_153

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