Steady and oscillatory thermocapillary flows of high Prandtl number fluids in the half-zone configuration are analyzed theoretically. Scaling analysis is performed to determine the velocity and length scales of the basic steady flow. The predicted scaling laws agree well with the numerically computed results. The physical mechanism of oscillations is then discussed. It is shown that the deformation of free surface plays an important role for the onset of oscillations in that it alters the main thermocapillary driving force of the flow by changing the temperature field near the hot-corner region. This phenomenon triggers oscillation cycles in which the surface flow undergoes active and slow periods. Based on that concept a surface deformation parameter is derived by scaling analysis. The deformation parameter correlates available data for the onset of oscillations well.
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Research Papers
Theoretical Analysis of Thermocapillary Flow in Cylindrical Columns of High Prandtl Number Fluids
Y. Kamotani,
Y. Kamotani
Department of Mechanical and Aerospace Engineering, Case Western Reserve University, Cleveland, OH 44106
e-mail: yxk@po.cwru.edu
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S. Ostrach
S. Ostrach
Department of Mechanical and Aerospace Engineering, Case Western Reserve University, Cleveland, OH 44106
Search for other works by this author on:
Y. Kamotani
Department of Mechanical and Aerospace Engineering, Case Western Reserve University, Cleveland, OH 44106
e-mail: yxk@po.cwru.edu
S. Ostrach
Department of Mechanical and Aerospace Engineering, Case Western Reserve University, Cleveland, OH 44106
J. Heat Transfer. Aug 1998, 120(3): 758-764 (7 pages)
Published Online: August 1, 1998
Article history
Received:
October 15, 1997
Revised:
March 13, 1998
Online:
December 5, 2007
Connected Content
A companion article has been published:
Compressible Narrow Groove Analysis—Part 2: Computation of Pressure Field in a Spherical Device Rotating in Either Direction
Citation
Kamotani, Y., and Ostrach, S. (August 1, 1998). "Theoretical Analysis of Thermocapillary Flow in Cylindrical Columns of High Prandtl Number Fluids." ASME. J. Heat Transfer. August 1998; 120(3): 758–764. https://doi.org/10.1115/1.2824346
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