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RU
Vol 192
Pages:
187-189
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RUS
Article

3D heat distribution in the construction of the reduction cell with burned anodes

Authors:
P. A. Petrov
About authors
  • Ph.D. assistant lecturer Saint Petersburg State Mining University
Date submitted:
2010-10-22
Date accepted:
2010-12-06
Date published:
2011-09-27

Abstract

The importance of heat field calculation for designing and analysis of aluminium reduction cells operation is described. The heat balance of the reduction cell was calculated. The 3D-geometry of the reduction cell with prebaked anodes was constructed. Given geometry helps to research the heat distribution of electrolyzer.

Область исследования:
(Archived) Automation of technological processes аnd manufactures in mining and processing industries
Keywords:
нeat field aluminium reduction cell geometrical model
Funding:

None

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References

  1. Galevskiy G.V., Kulagin N.M., Mintsis M.Ya. Ecology and waste treatment in the aluminium production. Novosibirsk: Nauka, 1997. 159p.
  2. Vetyukov M.M., Tsyplakov A.M., Shkolnikov S.N. Electrometallurgy of aluminium and magnesium. Мoscow: Metallurgy, 1987. 320p.
  3. Mikheev A.E., Panin S.A., Karpenko A.I., Ruban A.S.Modernization of cell lining at the lithium electrolyte technology // Nonferrous Metals. 2006. N5. P.33-35.
  4. Sysoev A.V., Zaikov Yu.P., Shcherbinin S.A. et al. Mathematical simulation of electric and heat fields for electrolysers with side feed // Nonferrous Metals. 1998. N1. P.70-72.
  5. Panov E.N., Vasilchenko G.N., Danilenko S.V. Thermal processes in the electrolyzers and mixers of aluminium production / Edit by B.S.Gromov. Мoscow: Ore and Metalls, 1998. 256p.
  6. Piskazhova T.V., Mann V.C. The use of a dynamic aluminium cell model // JOM. 2006. N2. P.48-52.
  7. Arkhipov G.V. The mathematical Modelling of Aluminium Reduction Cells // JOM. 2006. N2. P.54-56.
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