Scope

Turbulence is a ubiquitous phenomenon; it is seen in our daily lives through its effects on the atmosphere, ocean, and even on the universe as a whole. It also plays an important role in environmental, geophysical, and space science and in engineering. Turbulence has been called the most difficult unsolved problem of classical physics. However, recent advances in experimental and observational techniques, as well as in computational power and numerical methods, have dramatically advanced our knowledge and understanding of turbulence. New technology allows us to measure various quantities which were difficult in the past to access in laboratory and field measurement. Powerful supercomputers can simulate turbulence at high Reynolds numbers and generate a huge amount of data and provides a variety of images provoking new idea of the complex flow field. In this workshop, the world leading scientists in turbulence research bring the latest data, findings, knowledges that were obtained by the state-of-the-art measurements, computation and theory.

Speakers

• Alhilali Manhal (Hyogo Univ.)

• Bodenschatz Eberhard (Max Planck Inst.)

• Furuichi Noriyuki (AIST)

• Gotoh Toshiyuki (Nagoya Inst. Tech.)

• Ishihara Takashi (Okayama Univ.)

• Kaneda Yukio (Nagoya Univ.)

• Sharad Kumar Yadav (SVNIT)

Program

Please click here for the WS program (latest version, Jan. 31 2025)

Please click here for the WS abstracts

Venue

In-Person/Online Hybrid

Nagoya Institute of Technology (link to NITech campus map)

Build. No. 2B, 611B

Organizers

Gotoh, Toshiyuki

Watanabe, Takeshi

Naitoh, Takashi

Saito, Izumi

Department of Engineering, Graduate School of Engineering, Nagoya Institute of Technology

Tel: +81-(0)52-735-5377

Support

• Grant-in-Aid for Scientific Research (20H00225, 24K14977)

• HPCI (hp240059)

• JHPCN (jh240020)

• NIFS (NIFS23KISS033)

• NUCC (HPC2024)

• The Japan Society of Fluid Mechanics, Chubu Branch 

• Center for Biomedical Physics and Information Technology, NITech