Abstract:
The hydrodynamic and heat-transfer processes in the problem of a laminar thermocapillary flow of a viscous incompressible fluid in a square cavity with isothermal vertical and isentropic horizontal surfaces are investigated numerically under the assumption that the gravity is absent, the free surface is flat, and the surface tension depends linearly on the temperature. Calculations were performed by a compact-difference method on irregular grids with a fifth-order accuracy for four Prandtl numbers (Pr = 1, 16, 200, and 3000) as the Marangoni (Ma) number varies from 10$^2$ to 10$^4$. The maximum local heat transfer versus the Ma number is obtained. It is shown that, for the Pr values considered, the maxima of the distribution of the horizontal velocity component on the surface is displaced to the cold boundary according to a law inversely proportional to the Ma number.
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