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Journal of Applied
Mathematics and Mechanics
Russian Academy of Sciences

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in January 1936
(Translated from 1958)
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ISSN 0021-8928
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Issues > Archive of Issues > 2014-4 > pp.341-347

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V.K. Andreyev and Ye.N. Lemeshkova, "The evolution of the thermocapillary motion of three fluids in a plane layer," J. Appl. Math. Mech. 78 (4), 341-347 (2014)
Year	2014	Volume	78	Issue	4	Pages	341-347
Title	The evolution of the thermocapillary motion of three fluids in a plane layer
Author(s)	V.K. Andreyev (Krasnoyarsk, Russia, andr@icm.ru) Ye.N. Lemeshkova (Krasnoyarsk, Russia)
Abstract	The unidirectional motion of three immiscible incompressible viscous heat-conducting liquids in a plane layer is considered. It is assumed that the motion occurs only under the action of thermocapillary forces from a state of rest. The analysis of the motion is reduced to solving linear conjugate initial boundary value problems for a system of parabolic equations. A non-stationary solution is sought by the Laplace transformation method and is obtained in the form of finite analytical expressions in transforms. It is proved that, as the time increases, the solution always reaches the steady state obtained earlier and an exponential estimate of the rate of convergence is given with an indicator which depends on the physical properties of the media and the layer thicknesses. The evolution of the velocity and temperature perturbation fields to a steady state for specific liquid media is obtained by numerical inversion of the Laplace transformation.
Received	09 April 2012
Link to Fulltext	http://www.sciencedirect.com/science/article/pii/S0021892814001087
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