Occurrence of Fluid Rotation upon Cooling of the Free Boundary
UDC
532.526DOI:
https://doi.org/10.31429/vestnik-17-1-1-23-29Abstract
For the Navier-Stokes system and the heat equation with vanishing viscosity, the stationary thermocapillary flow of an incompressible fluid in a horizontal layer of infinite thickness is calculated. The layer is bounded above by a free non-deformable boundary on which an uneven temperature distribution is specified. In the approximation of the boundary layer, asymptotic expansions of the solution of the problem are constructed. The main terms of the asymptotics satisfy the Prandtl equations of the boundary layer. Two types of regimes in the boundary layer are calculated - non-swirling and rotational fluid flows.
Rotational regimes of fluid flows arise as a result of bifurcation of non-swirling regimes in the boundary layer. Bifurcation points are found by solving a boundary value problem for eigenvalues. It is shown that rotational regimes arise only when the free boundary is locally cooled. When the boundary is heated, fluid rotation does not occur.
Two types of rotational modes are numerically calculated. All modes exist only if the velocity of the external fluid flow does not exceed the bifurcation value. The modes of the first type have axial symmetry. There are only two such modes. Other modes do not have axial symmetry. For modes of the second type, an exact solution in cylindrical coordinates is obtained. These modes depend on two independent parameters that fill the circle of unit radius. So, at the bifurcation point, many rotational regimes arise, which are a two-parameter family.
Keywords:
thermocapillary, boundary layer, free boundary, bifurcation, rotationReferences
- Napolitano L.G. Marangoni boundary layers // Proceedings III European Symposium on Material Science in Space. Grenoble. 24-27 April 1979. ESA SP-142. Paris. 1979. P. 313–315.
- Пухначев В.В. Групповой анализ уравнений нестационарного пограничного слоя Марангони // Доклады АН СССР. 1984. Т. 279. № 5. С. 1061–1064. [Pucknachev, V.V. Gruppovoy analiz uravneniy nestacionarnogo pogranichnogo sloya [Group analysis of equations of non-stationary boundary layer]. Doklady akademii nayk SSSR [Reports of the USSR Academy of Sciences], 1984, vol. 279, no. 5, pp. 1061–1064. (In Russian)]
- Batishchev V.A., Getman V.A. The onset of fluid rotation in a thermogravitational boundary layer with local cooling of the free surface // Fluid Dynamics. 2018. Vol. 53. Iss. 4. P. 500–509. DOI: 10.1134/S0015462818040031
- Шкадов В.Я. К образованию волн на поверхности вязкой тяжелой жидкости под действием касательного напряжения // Известия АН СССР. Механика жидкости и газа. 1970. № 3. С. 133–137. [Shkadov, V.Y. K obrazovaniy voln na poverkhnosti vyazkoy tyazholoy zhidkosti pod deistviem kasatelnogo naprageniya [To the formation of waves on the surface of a viscous heavy fluid under the action of shear stress]. Izvestiya AN SSSR. Mekhanika zhidkosti i gaza [Proc. of the USSR Academy of Sciences. Fluid and gas mechanics], 1970, no. 3, pp. 133–137. (In Russian)]
- Вишик М.И., Люстерник Л.А. Регулярное вырождение и пограничный слой для линейных дифференциальных уравнений с малым параметром // Успехи математических наук. 1957. Т. 12. № 5. С. 3–122. [Vishik, M.I., Lyusternik, L.A. Regularnoe vyroghdenie i pogranichniy sloy dlya lineiniych differentsialnyich uravneniy s malim parametrom [Regular degeneracy and a boundary layer for linear differential equations with a small parameter]. Yspekhi matematicheskich nayk [Advances in mathematical sciences], 1957, vol. 12, no. 5, pp. 3–122. (In Russian)]
- Любимов Д.В. О конвективных движениях в пористой среде, подогреваемой снизу // Прикладная механика и техническая физика. 1975. № 2. С. 131–137. [Lyubimov, D.V. O konvektivnykh dvizheniyakh v poristoy srede podogrevaemoy snizu [On convective motions in a porous medium heated from below]. Prikladnaya mekhanika i tekhnicheskaya fizika [Applied mechanics and technical physics], 1975, no. 2, pp. 131–137. (In Russian)]
Downloads
Downloads
Dates
Submitted
Accepted
Published
How to Cite
License
Copyright (c) 2020 Батищев В.А.
This work is licensed under a Creative Commons Attribution 4.0 International License.
