Stability of thermocapillary flows with inclined temperature gradient

ALEXANDER A. NEPOMNYASHCHY; ILYA B. SIMANOVSKII; LEONID M. BRAVERMAN

doi:10.1017/S0022112001004979

Abstract

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The stability of a two-layer return thermocapillary flow in the presence of an inclined temperature gradient is investigated. Both a linear stability analysis and nonlinear simulations have been performed for an air–water system. It is found that a rather weak deviation of the mean temperature gradient from the vertical direction suppresses Pearson's instability mechanism and leads to the appearance of oblique hydrothermal waves. In a certain region of parameters, transverse convective rolls drifting with the mean flow appear.

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Stability of thermocapillary flows with inclined temperature gradient

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