Experience

Meiji University

• Japan
• Higher Education
• 100 - 200 Employee

• Lecturer

  • Apr 2021 - Present



The University of Tokyo

• Japan
• Research Services
• 700 & Above Employee

• Research Associate

  • Apr 2018 - Mar 2021

  - Shape optimization of three-dimensional fluid-solid interface for turbulent convective heat transfer: algorithm construction and substantiative experiment- Skin friction drag control in Spatially developing turbulent boundary layer aiming at reduction of fuel consumption for aircrafts or high-speed vehicles- Improvement of heat exchangers for power generators utilizing low temperature heat source- Branching morphology on vessel transport properties during angiogenesis

• Postdoctoral Fellow

  • Apr 2015 - Mar 2018

  - Working on the flow control for less drag and larger heat transfer in wall-bounded flows.- 'Shape optimization of thermo-fluids system based on optimal control theory'



KTH Royal Institute of Technology

• Sweden
• Higher Education
• 700 & Above Employee

• Postdoctoral Fellow

  • Apr 2013 - Mar 2015

  "Skin friction drag reduction in turbulent boundary layers aiming at the energy-saving of the high-speed transports" 1) Direct numerical simulation of spatially developing turbulent boundary layers with uniform blowing or suction at high Reynolds number. The effect of uniform blowing and suction on the large-scale structures is investigated. 2) Direct numerical simulation of supersonic channel turbulent flow with uniform blowing and suction. The Mach number dependency of the uniform blowing and suction on the skin friction drag is investigated. "Direct numerical simulation of turbulent mixing layers with periodic forcing induced inflow" Direct numerical simulation of turbulent mixing layers with periodic forcing induced inflow mimicking the experiments in 2007-2008 mentioned above. The mixing enhancement or suppression by the periodic forcing at inflow is investigated. Show less