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Simulation of the Velocity field in compound channel flow using different closure models

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dc.contributor.author Filonovich, M.
dc.contributor.author Azevedo, R.
dc.contributor.author Rojas-Solorzano, L.
dc.contributor.author Leal, J. B.
dc.date.accessioned 2015-12-04T09:31:08Z
dc.date.available 2015-12-04T09:31:08Z
dc.date.issued 2010
dc.identifier.citation M. Filonovich, R. Azevedo, L. R. Rojas-Solorzano, J. B. Leal; 2010; Simulation of the Velocity field in compound channel flow using different closure models, http://nur.nu.edu.kz/handle/123456789/868 ru_RU
dc.identifier.uri http://nur.nu.edu.kz/handle/123456789/868
dc.description.abstract In this study a comparison of three turbulence closure models (two isotropic and one anisotropic) with experimental data is performed. The interaction between the main channel (MC) flow and the floodplain (FP) generates a complex flow structure. A shallow mixing layer develops between the MC flow and the slower FP flow generating a high horizontal shear layer, streamwise and vertical vortices, momentum transfer and other phenomena, related to velocity retardation and acceleration. This phenomenon dissipates part of the kinetic energy and contributes to the reduction of the velocity differences between the MC and the FP. The large scale vortices that are generated in the shear layer are anisotropic, provoking the formation of secondary flow cells that influence the primary velocity distribution. These threedimensional turbulent structures can be reasonable well reproduced by a simple anisotropic model (Algebraic Stress Model). The isotropic models are capable of simulating the boundary layer, especially the model base in k-ω equations, but cannot simulate the shear layer that develops at the interface ru_RU
dc.language.iso en ru_RU
dc.subject Research Subject Categories::TECHNOLOGY::Engineering mechanics ru_RU
dc.subject mechanical engineering ru_RU
dc.title Simulation of the Velocity field in compound channel flow using different closure models ru_RU
dc.type Article ru_RU


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