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ЖУРНАЛЫ // Russian Journal of Nonlinear Dynamics // Архив

Rus. J. Nonlin. Dyn., 2019, том 15, номер 3, страницы 261–270 (Mi nd658)

Nonlinear physics and mechanics

Advective Flow of a Rotating Fluid Layer in a Vibrational Field

K. G. Shvarts

Perm State University, ul. Bukireva 15, Perm, 614990 Russia

Аннотация: This paper presents a derivation of new exact solutions to the Navier – Stokes equations in Boussinesq approximation describing two advective flows in a rotating thin horizontal fluid layer with no-slip or free boundaries in a vibrational field. The layer rotates at a constant angular velocity; the axis of rotation is aligned with the vertical axis of coordinates. The temperature is linear along the boundaries of the layer. The case of longitudinal vibration is considered. The resulting solutions are similar to those describing the advective flows in a rotating fluid layer with solid or free boundaries without vibration. In both cases, the velocity profile is antisymmetric. Thus, in particular, in the absence of rotation, the longitudinal vibration in the presence of advection can be considered as a kind of “one-dimensional” rotation. The presence of rotation initiates the vortex motion of the fluid in the layer. Longitudinal vibration has a stronger effect on the xth component of the velocity than on the yth component. At large values of the Taylor number and (or) the vibration analogue of the Rayleigh number thin boundary layers of velocity, temperature and amplitude of the pulsating velocity component arise, the thickness of which is proportional to the root of the fourth degree from the sum of these numbers.

Ключевые слова: horizontal convection, longitudinal vibration, exact solution.

MSC: 76U05, 76R05, 76D05

Поступила в редакцию: 09.07.2019
Принята в печать: 19.08.2019

DOI: 10.20537/nd190305



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