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 Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.]: Year: Volume: Issue: Page: Find

 Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2019, Volume 23, Number 2, Pages 341–360 (Mi vsgtu1670)

Mathematical Modeling, Numerical Methods and Software Complexes

Convective layered flows of a vertically whirling viscous incompressible fluid. Velocity field investigation

N. V. Burmashevaab, E. Yu. Prosviryakovba

a Ural Federal University named after the First President of Russia B. N. Yeltsin, Ekaterinburg
b Institute of Engineering Science, Urals Branch, Russian Academy of Sciences, Ekaterinburg, 620049, Russian Federation

Abstract: This article discusses the solvability of an overdetermined system of heat convection equations in the Boussinesq approximation. The Oberbeck–Boussinesq system of equations, supplemented by an incompressibility equation, is overdetermined. The number of equations exceeds the number of unknown functions, since non-uniform layered flows of a viscous incompressible fluid are studied (one of the components of the velocity vector is identically zero). The solvability of the non-linear system of Oberbeck–Boussinesq equations is investigated. The solvability of the overdetermined system of non-linear Oberbeck–Boussinesq equations in partial derivatives is studied by constructing several particular exact solutions. A new class of exact solutions for describing three-dimensional non-linear layered flows of a vertical swirling viscous incompressible fluid is presented. The vertical component of vorticity in a non-rotating fluid is generated by a non-uniform velocity field at the lower boundary of an infinite horizontal fluid layer. Convection in a viscous incompressible fluid is induced by linear heat sources. The main attention is paid to the study of the properties of the flow velocity field. The dependence of the structure of this field on the magnitude of vertical twist is investigated. It is shown that, with nonzero vertical twist, one of the components of the velocity vector allows stratification into five zones through the thickness of the layer under study (four stagnant points). The analysis of the velocity field has shown that the kinetic energy of the fluid can twice take the zero value through the layer thickness.

Keywords: exact solution, layered convection, tangential stress, stagnation point, counterflow, stratification, Oberbeck–Boussinesq equation system, vertical twist

 Funding Agency Grant Number Fund for Assistance to Small Innovative Enterprises in the Scientific and Technical Sphere 12281ÃÓ/2017 This work was supported by the Foundation for Assistance to Small Innovative Enterprises in Science and Technology (the UMNIK program, agreement 12281GU/2017).

DOI: https://doi.org/10.14498/vsgtu1670

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Bibliographic databases:

UDC: 532.51, 517.958:531.3-324
MSC: 76F02, 76M45, 76F45, 76R05, 76U05
Revised: March 27, 2019
Accepted: April 29, 2019
First online: May 2, 2019
Language:

Citation: N. V. Burmasheva, E. Yu. Prosviryakov, “Convective layered flows of a vertically whirling viscous incompressible fluid. Velocity field investigation”, Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 23:2 (2019), 341–360

Citation in format AMSBIB
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