PUBLICATION LIST (JFY 2000)

Technical Report

1. NASDA Technical memorandum, "Marangoni Convection Modeling Research", NASDA-TMR-000006E, National Space Development Agency of Japan (2000).

Papers

1. Z. Yuan, K. Mukai, K. Takagi, and M. Ohtaka, "Dependence of Surface Tension of Molten Tin on Temperature and Oxygen Partial Pressure (in Japanese)", J. Jpn. Inst. Metals, Vol. 65, pp. 21-28 (2001).
2. K. Takagi, M. Ohtaka, H. Natsui, T. Arai, and S. Yoda, "Experimental Study on Transition to Oscillatory Thermocapillary Flow in Molten Tin Column (in Japanese)", J. Jpn. Soc. Microgravity Appl., Vol. 18, pp. 11-15 (2001).
3. N. Imaishi, S. Yasuhiro, and Y. Akiyama, "Numerical Simulation of 3-Dimensional Marangoni Flow in Liquid Bridge of Low Pr Fluids (in Japanese)", J. Jpn. Soc. Microgravity Appl., Vol. 18, pp. 2-10 (2001).
4. N. Imaishi, S. Yasuhiro, Y. Akiyama, and S. Yoda, "Three Dimensional Marangoni Flow in Half-zone Liquid Bridge of Low Pr Fluid", J. Crystal Growth, submitted.
5. K. Takagi, M. Otaka, H. Natsui, T. Arai, S. Yoda, Z. Yuan, K. Mukai, S. Yasuhiro, and N. Imaishi, "Experimental Study on Transition to Oscillatory Thermocapillary Flow in a Low Prandtl Number Liquid Bridge", J. Crystal Growth, submitted.
6. M. Kawaji, H.C. Kuhlmann, S. Simic, C. Nienhüser, and S. Yoda, "Onset of Oscillatory Thermocapillary Flow in O(1) - Prandtl-Number Liquid Bridges: The Effect of Evaporation.", ASME J. Heat Transfer, to be submitted.
7. S. Gupta, Y. Kamotani, J. Masud, and S. Yoda, "A Numerical Study of Thermocapillary Convection in Two-Dimensional Liquid Bridges", J. Thermophys. Heat Transfer, submitted.
8. Y. Kamotani, L. Wang, S. Hatta, R. Selver, P.S. Bhunia, and S. Yoda, "Effect of Free Surface Heat Transfer on Onset of Oscillatory Thermocapillary Flow", Intern. J. Heat Mass Transfer, to be submitted.
9. C. Nienhüser and H.C. Kuhlmann, "Stability of Thermocapillary Flows in Non-cylindrical Liquid Bridges", J. Fluid Mech., submitted.
10. H.C. Kuhlmann, S. Simic, C. Nienhüser, and S. Yoda, "Dynamic Surface Deformations due to Oscillatory Thermocapillary Flow in Liquid Bridges", Phys. Fluids, to be submitted.

Oral Presentations (International)

1. N. Imaishi, S. Yasuhiro, T. Sato, and S. Yoda, "Numerical Simulation of Three Dimensional Oscillatory Flow in Half-zone Bridges of Low Pr Fluid", Proc. 4^th JSME/KSME Thermal Eng. Conf., Vol. 3, pp. 277-282 (2000) Kobe.
2. N. Imaishi, "Role of the Marangoni Effect on Melt Convection", Abstract 3^rd Int. Workshop Modeling Crystal Growth, pp. 115-116 (2000) Stony Brook.
3. M. Goto, H. Kawamura, I. Ueno and S. Yoda, "Numerical Simulation of the Thermocapillary Convection with Dynamic Free Surface Deformation", Proc. 52^nd Annual Meeting Division Fluid Dynamics, FN.004 (2000) Washington, DC.
4. K. Shida, H. Kawamura and S. Yoda, "Three-dimensional Numerical Simulation of Marangoni Convection in Liquid Bridge with a High Prandtl Number", Proc. 14^th Sympo. Computational Fluid Dynamics, C03-1 (2000) Tokyo.
5. Y. Kamotani, L. Wang, S. Hatta, R. Selver, P.S. Bhunia, and S. Yoda, "Effect of Cold Wall Temperature on Onset of Oscillatory Thermocapillary Flow", Proc. 39^th AIAA Aerospace Sci. Meeting Exhibit, AIAA-2001-0761 (2001) Reno.
6. Y. Agata, K. Nishino, S. Yoda, and K. Torii, "Simultaneous Observation of Flow Pattern and Dynamic Surface Deformation of Oscillatory Thermocapillary Convection in Liquid Bridge", Proc. 6^th Asian Sympo. Visualization (ASV6) (2001) Pusan.
7. K. Nishino, Y. Iijima, and S. Yoda, "Dynamic Surface Deformation and Surface Temperature Fluctuation of Marangoni Convection in a Liquid Bridge", Proc. 37^th National Heat Transfer Sympo. Jpn., Vol. II, pp. 655-656 (2000) Kobe.

Oral Presentations (Domestic)

1. M. Ohtaka, K. Takagi, H. Natsui, T. Arai, S. Yoda, Z. Yuan, and K. Mukai, "Experimental Study on Thermocapillary Convection of Pr=0.01 Liquid Column (1) -Verification of Oxidation Prevention and Non-contact Temperature Measurement of Fluid Surface-", Proc. 16^th Jpn. Soc. Microgravity Application Conf., B208 (2000) Osaka.
2. H. Natsui, M. Ohtaka, K. Takagi, T. Arai, S. Yoda, S. Yasuhiro, and N. Imaishi, "Experimental Study on Thermocapillary Convection of Pr=0.01 Liquid Column (2) -Observation of Transition Phenomena of Oscillatory Flow-", Proc. 16^th Jpn. Soc. Microgravity Application Conf., B209 (2000) Osaka.
3. K. Takagi, M. Ohtaka, H. Natsui, T. Arai, S. Yoda, S. Nagai, T. Suzuki, T. Miura, and H. Karasawa, "Experimental Study on Thermocapillary Convection of Pr=0.01 Liquid Column (3) -Development of Novel Visualization Technique of Flow Field-", Proc. 16^th Jpn. Soc. Microgravity Application Conf., B210 (2000) Osaka.
4. S. Yasuhiro, N. Imaishi, T. Sato, H. Suenaga and S. Yoda, "Numerical Simulation of Three Dimensional Marangoni Convection in Liquid Bridge of Low Pr Fluids", Proc. 37^th Heat Transfer Sympo. Jpn. (2000) Kobe.
5. S. Yasuhiro, N. Imaishi, and S. Yoda, "Numerical Simulation of Three Dimensional Marangoni Convection in Half-zone Liquid Bridge", Proc. 16^th Jpn. Soc. Microgravity Application Conf., B204 (2000) Osaka.
6. Y. Agata, K. Nishino, S. Yoda, and H. Kawamura, "Internal Flow and Dynamic Surface Deformation of Marangoni Convection in a Liquid Bridge", Proc. 17^th Space Utilization Sympo., Vol. 17, pp. 315-318 (2001).
7. E.A. Matida, K. Nishino, and S. Yoda, "Heat Loss Measurement of Convective Thermocapillary Flow in Half-floating Zones", Proc. 17^th Space Utilization Sympo., Vol. 17, pp. 305-308 (2001).