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Deville–Pechiney process

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The Deville–Pechiney process, also known as the Le Châtelier process,[1]: 15 [2]: 86  was the first industrial process used to produce alumina from bauxite.

The Frenchman Henri Sainte-Claire Deville invented the process in 1859, in collaboration with Louis Le Châtelier.[3]: 122  In 1860, Deville sold his aluminium interests to Henri Merle, a founder of Compagnie d'Alais et de la Camargue,[4]: 103  later known as Pechiney. It is based on the extraction of alumina with sodium carbonate.

The first stage is the calcination of the bauxite at 1200 °C with sodium carbonate and coke. The alumina is converted in sodium aluminate. Iron oxide remains unchanged and silica forms a polysilicate.

In the second stage sodium hydroxide solution is added, which dissolves the sodium aluminate, leaving the impurities as a solid residue. The amount of sodium hydroxide solution needed depends upon the amount of silica present in the raw material. The solution is filtered off; carbon dioxide is bubbled through the solution, causing aluminium hydroxide to precipitate, leaving a solution of sodium carbonate. The latter can be recovered and reused in the first stage.

The aluminium hydroxide is calcined to produce alumina.

The process was used in France at Salindres until 1923 and in Germany and Great Britain until the outbreak of the Second World War.[5]

While it has largely been replaced by the Bayer process, an updated version is still in use for processing high-silica bauxite.[6]: 90, 92–93 

Further reading

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  • Wisniak, Jaime (2004). "Henri Étienne Sainte-Claire Deville: A Physician Turned Metallurgist". Journal of Materials Engineering and Performance. 13 (2): 117–128. Bibcode:2004JMEP...13..117W. doi:10.1361/10599490418271.
  • Oesper, R. E.; Lemay, P. (1950). "Henri Sainte-Claire Deville, 1818-1881". Chymia. 3: 205–221. doi:10.2307/27757153. JSTOR 27757153.
  • McNeil, Ian (2002-06-01). Encyclopaedia of the History of Technology. Routledge. p. 103. ISBN 9780203192115.
  • Jahresbericht uber die Fortschritte der chemischen Technologie fur Fabrikanten Hutten und Forsleute, Cameralisten, Chemiker und Pharmaceuten. 1856. p. 5.
  • Banks, Alton (1990). "Sodium". Journal of Chemical Education. 67 (12): 1046. Bibcode:1990JChEd..67.1046B. doi:10.1021/ed067p1046.
  • Hartmann, Gérard. "L'aluminium historique" (PDF). Archived from the original (PDF) on 2013-04-29. Retrieved 2012-04-10.

See also

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References

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  1. ^ Habashi, Fathi (1995). "Bayer's process for alumina production: a historical perspective" (PDF). Bulletin for the History of Chemistry. 17–18: 15–19. Archived from the original (PDF) on 13 April 2019.
  2. ^ Habashi, Fathi (2016). "A Hundred Years of the Bayer Process for Alumina Production". Essential Readings in Light Metals: 85–93. doi:10.1007/978-3-319-48176-0_12.
  3. ^ Le Roux, Muriel (May 2015). "From Science to Industry: The Sites of Aluminium in France from the Nineteenth to the Twentieth Century". Ambix. 62 (2): 114–137. doi:10.1179/1745823415Y.0000000001.
  4. ^ McNeil, Ian (2002). An Encyclopedia of the History of Technology. Routledge. ISBN 978-1-134-98165-6.
  5. ^ G.A. Baudart (January 1955). "Histoire française de l'alumine". Revue de l'aluminium. 217: 35.
  6. ^ Drozdov, Andrey (2007). Aluminium: The Thirteenth Element (PDF). RUSAL Library. ISBN 978-5-91523-002-5. Archived from the original (PDF) on 2016-04-16. Retrieved 2019-06-09.

Translated from the French Wikipedia article "Extraction de l'alumine".