This paper provides an overview of ongoing studies in the area of thermocapillary convection driven by a surface tension gradient parallel to the free surface in a floating zone. Here, research interests are focused around the onset of oscillatory thermocapillary convection, also known as the transition from quasisteady convection to oscillatory convection. The onset of oscillation depends on a set of critical parameters, and the margin relationship can be represented by a complex function of the critical parameters. The experimental results indicate that the velocity deviation of an oscillatory flow has the same order of magnitude as that of an average flow, and the deviations of other quantities, such as temperature and free surface radii fluctuations, are much smaller when compared with their normal counterparts. Therefore, the onset of oscillation should be a result of the dynamic process in a fluid, and the problem is a strongly nonlinear one. In the past few decades, several theoretical models have been introduced to tackle the problem using analytical methods, linear instability analysis methods, energy instability methods, and unsteady 3D numerical methods. The last of the above mentioned methods is known to be the most suitable for a thorough analysis of strong nonlinear processes, which generally leads to a better comparison with the experimental results. The transition from oscillatory thermocapillary convection to turbulence falls under the studies of chaotic behavior in a new system, which opens a fascinating new frontier in nonlinear science, a hot research area drawing many recent works. This paper reviews theoretical models and analysis, and also experimental research, on thermocapillary connection in floating zones. It cites 93 references.
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e-mail: wrhu@imech.ac.cn
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January 2008
Review Articles
Thermocapillary Convection in Floating Zones
W. R. Hu,
W. R. Hu
Institute of Mechanics
, Chinese Academy of Sciences, 15 4th Round Road North West, Beijing 100080, P.R.C.
Wen-rui Hu is an academician of the Chinese Academy of Sciences. Professor Hu has been a full member of the International Astronautic Academy since 1996. He graduated from the Department of Mathematics and Mechanics, Peking University in 1958 and then worked in the Institute of Mechanics of the Chinese Academy of Sciences as an assistant (1958–1978), associate professor (1978–1984), and full professor (1984–present). His research work has been on the microgravity fluid physics, especially in the field of thermocapillary convection and drop migration since late 1980s. He has authored ten books and more than 200 article length publications.
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Z. M. Tang,
e-mail: wrhu@imech.ac.cn
Z. M. Tang
Institute of Mechanics
, Chinese Academy of Sciences, 15 4th Round Road North West, Beijing 100080, P.R.C.
Zei-mei Tang is a professor in the Institute of Mechanics, Chinese Academy of Sciences. She graduated from Tsing Hua University in 1965. She has done research numerically by using finite element method in the field of thermocapillary convection since late of 1980s. Professor Tang has authored more than 50 article publications on microgravity fluid physics.
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K. Li
K. Li
Institute of Mechanics
, Chinese Academy of Sciences, 15 4th Round Road North West, Beijing 100080, P.R.C.
Kai Li is a professor in Institute of Mechanics, Chinese Academy of Sciences (CAS). After getting his Ph.D. degree from the Institute of Mechanics, CAS, he worked as a research associate in Washington State University (USA) and as an assistant professor in Kyushu University (Japan). His major research interests are the numerical studies of thermocapillary flow instability in half zone configuration and heat and mass transfer process in crystal growth systems on ground and in microgravity, such as floating zone method and Bridgman method. He has authored more than 20 article publications on microgravity fluid physics.
Search for other works by this author on:
W. R. Hu
Wen-rui Hu is an academician of the Chinese Academy of Sciences. Professor Hu has been a full member of the International Astronautic Academy since 1996. He graduated from the Department of Mathematics and Mechanics, Peking University in 1958 and then worked in the Institute of Mechanics of the Chinese Academy of Sciences as an assistant (1958–1978), associate professor (1978–1984), and full professor (1984–present). His research work has been on the microgravity fluid physics, especially in the field of thermocapillary convection and drop migration since late 1980s. He has authored ten books and more than 200 article length publications.
Institute of Mechanics
, Chinese Academy of Sciences, 15 4th Round Road North West, Beijing 100080, P.R.C.
Z. M. Tang
Zei-mei Tang is a professor in the Institute of Mechanics, Chinese Academy of Sciences. She graduated from Tsing Hua University in 1965. She has done research numerically by using finite element method in the field of thermocapillary convection since late of 1980s. Professor Tang has authored more than 50 article publications on microgravity fluid physics.
Institute of Mechanics
, Chinese Academy of Sciences, 15 4th Round Road North West, Beijing 100080, P.R.C.e-mail: wrhu@imech.ac.cn
K. Li
Kai Li is a professor in Institute of Mechanics, Chinese Academy of Sciences (CAS). After getting his Ph.D. degree from the Institute of Mechanics, CAS, he worked as a research associate in Washington State University (USA) and as an assistant professor in Kyushu University (Japan). His major research interests are the numerical studies of thermocapillary flow instability in half zone configuration and heat and mass transfer process in crystal growth systems on ground and in microgravity, such as floating zone method and Bridgman method. He has authored more than 20 article publications on microgravity fluid physics.
Institute of Mechanics
, Chinese Academy of Sciences, 15 4th Round Road North West, Beijing 100080, P.R.C.Appl. Mech. Rev. Jan 2008, 61(1): 010803 (15 pages)
Published Online: March 5, 2008
Article history
Published:
March 5, 2008
Citation
Hu, W. R., Tang, Z. M., and Li, K. (March 5, 2008). "Thermocapillary Convection in Floating Zones." ASME. Appl. Mech. Rev. January 2008; 61(1): 010803. https://doi.org/10.1115/1.2820798
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