Journal of Siberian Federal University. Engineering & Technologies / Three-Dimensional Mathematical Modeling of Dynamics Interfaces Between Aluminum, Electrolytes and Reverse Zone of Oxidized Metal Depending on the Potencial Distribution

Full text (.pdf)
Issue
Journal of Siberian Federal University. Engineering & Technologies. 2017 10 (1)
Authors
Piskazhova, Tatyana V.; Savenkova, Nadezhda P.; Anpilov, Sergey V.; Kalmykov, Alexey V.; Zaitsev, Fedor S.; Anikeev, Fedor A.
Contact information
Piskazhova, Tatyana V.: Siberian Federal University 79 Svobodny, Krasnoyarsk, 660041 Russia; Savenkova, Nadezhda P.: Lomonosov Moscow State University 1 Leninskie gory corp., Moscow, 119991, Russia; Anpilov, Sergey V.: Lomonosov Moscow State University 1 Leninskie gory corp., Moscow, 119991, Russia; Kalmykov, Alexey V.: Lomonosov Moscow State University 1 Leninskie gory corp., Moscow, 119991, Russia; ; Zaitsev, Fedor S.: Lomonosov Moscow State University 1 Leninskie gory corp., Moscow, 119991, Russia; Anikeev, Fedor A.: Lomonosov Moscow State University 1 Leninskie gory corp., Moscow, 119991, Russia
Keywords
electrolysis of aluminum; magnetohydrodynamics; MHD-stability
Abstract

The mathematical model with a high detailed description of the studied processes is presented in current paper. Results of modeling Soderbergh’s reduction cell for model task and for reduction cell with multiple anodes are also presented. System of the equations of Navier-Stokes is used for modeling of hydrodynamics of process of electrolysis. Distribution of electromagnetic fields is fitted to Maxwell’s system of equations. Influence of distribution of electric potential over the anode on MHD-stability of process is considered and comparative analysis of numerical experiments is also given

Pages
59-73
Paper at repository of SibFU
https://elib.sfu-kras.ru/handle/2311/30793

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