Takashi Hibiki
Takashi Hibiki is a Japanese scientist who is a professor emeritus of nuclear engineering at Purdue University and a chair professor of thermal-fluid engineering at City University of Hong Kong.
Early life and education Hibiki was born in 1963 at Kyoto in Japan. Hibiki graduated from Osaka University in 1985. He obtained his Ph.D. from Department of Chemical Engineering, Osaka University in 1990 under the supervision of Professor Takashi Katayama.
Career
After obtaining his Ph.D., Hibiki became an assistant professor at Research Reactor Institute, Kyoto University in 1990, and was promoted to an associate professor in 1997. He was invited to be a full professor at School of Nuclear Engineering, Purdue University in 2006, and became a professor emeritus in 2018,.[1] Hibiki is currently a chair professor of thermal-fluid engineering at City University of Hong Kong. The Hong Kong government granted a Global STEM Professorship to Hibiki.
Hibiki first developed a high-time-resolution neutron radiography technique using a steady thermal neutron beam in 1994.[2] For this achievement he was awarded 1995 Promising Endeavor Award, from Atomic Energy Society of Japan. He published a research article on the basic constitutive equations for predicting mini-channel two-phase fluid dynamics in International Journal of Multiphase Flow.[3] These equations are known as Mishima-Hibiki equations and the paper is ranked No. 1 in citations for all papers published in International Journal of Multiphase Flow since 1974 as of November 1, 2018.[4] He developed the interfacial area transport equation known as Hibiki-Ishii equation, which has been implemented into a commercial computational fluid dynamics code.[5] He also co-authored the book Thermo-Fluid Dynamics of Two-Phase Flow.[6]
Recognition and awards
In 2015, Hibiki was awarded Osaka University Global Alumni Fellow from Osaka University.
1995 - Promising Endeavor Award, Atomic Energy Society of Japan[7] 2001 - Preeminent Monograph Award, Japanese Society for Multiphase Flow[8] 2001 - Young Member Engineering Achievement Award, American Nuclear Society[9] 2005 - Research & Development Award, Japanese Society for Multiphase Flow[10] 2007 - Engineering Achievement Award, Thermal-hydraulics Division, Atomic Energy Society of Japan[11] 2010 - Preeminent Monograph Award, Japanese Society for Multiphase Flow[12] 2011 - Distinguished Service Award, Heat Transfer Society of Japan[13] 2011 - Fellow, American Nuclear Society[14] 2015 - Best Paper Award, Japan Society of Mechanical Engineers[15] 2015 – Osaka University Global Alumni Fellow[16] 2016 - Award for Eminent Achievements in Nuclear Science and Technology, Atomic Energy Society of Japan[17] 2018 - Preeminent Monograph Award, Japanese Society for Multiphase Flow[18]
References
- "Our People".
- T. Hibiki et al., Visualization of Fluid Phenomena Using a High Frame-Rate Neutron Radiography with a Steady Thermal Neutron Beam, Nuclear Instruments and Methods in Physics Research, Vol. A351, pp. 423-436 (1994)
- K. Mishima, T. Hibiki, Some Characteristics of Air-Water Two-Phase Flow in Small Diameter Tubes, International Journal of Multiphase Flow, Vol. 22, pp. 703-712 (1996)
- Web of Science, Clarivate
- ANSYS Fluent Theory Guide, Version 18, pp.550.
- Ishii, Mamoru; Hibiki, Takashi (2011). Thermo-Fluid Dynamics of Two-Phase Flow. doi:10.1007/978-1-4419-7985-8. ISBN 978-1-4419-7984-1. S2CID 93853954.
- "日本原子力学会賞". Archived from the original on 2013-02-16. Retrieved 2018-12-03.
- "日本混相流学会 -The Japanese Society for Multiphase Flow-".
- "日本原子力学会賞". Archived from the original on 2013-02-16. Retrieved 2018-12-03.
- "日本混相流学会 -The Japanese Society for Multiphase Flow-".
- "日本原子力学会熱流動部会".
- "日本混相流学会 -The Japanese Society for Multiphase Flow-".
- http://www.htsj.or.jp/dennetsu/denpdf/2012_04.pdf
- "Current Fellows -- ANS / Honors and Awards".
- https://www.jsme.or.jp/archive/award/shou93.pdf
- "Osaka University Global Alumni Fellow".
- "日本原子力学会賞". Archived from the original on 2013-02-16. Retrieved 2018-12-03.
- "日本混相流学会 -The Japanese Society for Multiphase Flow-".