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13. REFERÊNCIAS BIBLIOGRÁFICAS
1. Kai Grjotheim, Halvor Kvande, “Introduction to Aluminium Eletrolysis”, 2
nd
Edition,
Aluminium Verlag Ed., 1993;
2. Kai Grjotheim, Reidar Huglen, Halvor Kvande, “Principles os Energy Balance,
Thermochemistry and Theoretical Energy Consumption”, Aluminium Verlag Ed.,
1986;
3. A.R. Kjar, J.T. Keniry, D.S. Severo, “Evolution of Busbar Design for Aluminium
Reduction Cells”, 8th Australasian Aluminium Smelting Technology Conference, 3
rd
– 8
th
October 2004);
4. J. P. Antille, M. Givord, Y. Kraehenbuehl, R. Von Kaenel, “Efects of Current
Increase on Aluminium Reduction Cells”, Ed. The Minerals, Metals & Materials
Society, Light Metals 1995;
5. Pierre Homsi, Jerôme Bos, Peter Herd, “AP21: A High Performance, High
Productivity and Low Capital Cost New Cell Tecnology”, Ed. The Minerals, Metals
& Materials Society, Light Metals 1999;
6. Terje Johansen, Hans Peter Lange, R. Von Kaenel, “Productivity Increase at Soral
Smelter”, Light Metals 1999, Ed. The Minerals, Metals & Materials Society , Light
Metals 1999;
7. Morten Sorlie, Harald A. Oye, “Cathodes in Aluminium Electrolysis”, 2
nd
Edition,
Aluminium Verlag Ed., 2003;
8. M. D. Campos, “O Método de Elementos Finitos Aplicado à Simulação Numérica de
Escoamento de Fluidos”, III Bienal da SBM – IME/UFG, 2006;
9. Prof. Luis A. Pereira, “Aspectos Fundamentais do Método dos Elementos Finitos” –
PUC-RS, PPGEE, artigo, 2005
10. M. H. Johnson, “ALUMAR Technical Workshop – Potrooms”, MelAlum Consulting
Services, March 23-27, 1998
11. J. Bruggeman, et al, “1st ALUMAR Aluminum Production Training For Mechanical
& Electrical Engineers”, São Luis, May 1999
12. D.Lombard, T. Béhérégaray, B. Féve, J.M. Jolas, “Aluminium Pechiney Experience
With Graphitized Cathode Blocks, Light Metals, 1998
13. Informações de dados gerados em teste similar iniciado na planta de produção de
alumínio de Mt Holly do grupo Alcoa nos Estados Unidos, 2005.