The thermocapillary feedback mechanism important at the edge of weld pools and other materials processes is examined through a model problem. A pool of liquid with a flat horizontal free surface is bounded on one side by a vertical solid wall, which is maintained at a cold temperature to unit depth, and at a warmer temperature below; far away the fluid is at the warmer temperature. Surface tension is a decreasing function of temperature, so that the surface thermal gradient drives flow toward the corner. When convection is vigorous, the flow compresses the thermal gradient which is driving the flow; this positive feedback results in small local length scales and high velocities near the corner. This problem is examined through a detailed scaling analysis and through numerical simulation for a range of parameters. The results show that for vigorous convection, the flow in the cold corner is locally determined.
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April 1994
Research Article|
April 01 1994
Thermocapillary flow near a cold wall
D. Canright
D. Canright
Department of Mathematics, Code MA/Ca, Naval Postgraduate School, Monterey, California 93943
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Physics of Fluids 6, 1415–1424 (1994)
Article history
Received:
June 23 1993
Accepted:
November 30 1993
Citation
D. Canright; Thermocapillary flow near a cold wall. Physics of Fluids 1 April 1994; 6 (4): 1415–1424. https://doi.org/10.1063/1.868256
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