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NUMERICAL SIMULATION OF AERODYNAMICS AND HEAT TRANSFER IN MULTI-COMPONENT GAS MIXTURES IN THE ANNEX TO THE COMBUSTOR AND TRANSPORTATION ANODE GAS ELECTROLYTIC PRODUCTION OF ALUMINUM
Neobyyavlyayushchiy P.A.1,2, Dekterev A.A.2,3, Litvintsev K.Yu.2
1 TORINS, Ltd., Krasnoyarsk, Russia
2 Institute of Thermophysics SB RAS, Novosibirsk, Russia
3 Siberian Federal University, Krasnoyarsk, Russia
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Citation:
Neobyyavlyayushchiy, P.A., Dekterev, A.A. and Litvintsev, K.Yu., (2013) Numerical simulation of aerodynamics and heat transfer in multi-component gas mixtures in the annex to the combustor and transportation anode gas electrolytic production of aluminum, Modern Science: Researches, Ideas, Results, Technologies, Iss. #1(12), PP. 204 - 206.
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Keywords:burners; anode gases; computational fluid dynamics |
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Abstracts:
The paper presents the results of a comprehensive computational and experimental study of aerodynamics and heat transfer in complex channel devices burner flues and transportation systems, and thermal treatment of aluminum anode gas production. The calculations were performed on software complex «σFlow» and «Star CCM +», designed to meet the challenges of computational fluid dynamics. On the basis of numerical experiments were optimized design elements of the system of disposal and transport of the anode gas |
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