Bifurcation Model of Laminar-Turbulent Transitions Near Flat Walls


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Abstract

In this article, we describe a new mathematical model (bifurcational turbulence model) and justify its suitability for the prediction of laminar and turbulent boundary layer characteristics. The main specific feature of the model is the laminar-turbulent transition, arising as a new solution of the equation for Reynolds stresses, closing the system of Reynolds-averaged Navier-Stokes (RANS) equations. The article is divided into three main parts. The first part describes the RANS and second-order closure conditions together with the premises that we use to obtain the model equations in the closed form. In the second part, we derive the equations of the turbulent-flow model in the shear layer. In the third part, we consider the boundary-layer turbulence transition over a flat plate and present the results of numerical simulations compared with the experimental data.

About the authors

O. V. Troshkin

Institute for Computer-Aided Design, Russian Academy of Sciences

Author for correspondence.
Email: troshkin@icad.org.ru
Russian Federation, Moscow

S. A. Kozlov

Institute for Computer-Aided Design, Russian Academy of Sciences

Author for correspondence.
Email: sergei.alex.kozlov@gmail.com
Russian Federation, Moscow

S. V. Fortova

Institute for Computer-Aided Design, Russian Academy of Sciences

Author for correspondence.
Email: sfortova@icad.org.ru
Russian Federation, Moscow

V. V. Shepelev

Institute for Computer-Aided Design, Russian Academy of Sciences

Author for correspondence.
Email: vshepelev@icad.org.ru
Russian Federation, Moscow

I. V. Eriklintsev

Institute for Computer-Aided Design, Russian Academy of Sciences

Author for correspondence.
Email: ilerik@icad.org.ru
Russian Federation, Moscow

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