Collaborative Researches in 2022 FY

Specific Research Theme
Research Field ・Number Representative Researcher Title of Research
Name Affiliation
Wind-Hazard Mitigation・Wind-Resistant Construction field
・ID:22222001
Hiroshi Niino Tokyo University Evaluation of DIs, DODs and wind speeds for Japanese Enhanced Fujita Scale
Wind-Hazard Mitigation・Wind-Resistant Construction field
・ID:22222002
Q. S. Yang Chongqing University Crosswind responses and aerodynamic damping of inclined high-rise buildings with large aspect ratio
Wind-Hazard Mitigation・Wind-Resistant Construction field
・ID:22222003
Akira Katsumura Wind Engineering Institute Propose of fluctuating wind force coefficient model and power spectrum density function of high-rise buildings with various corner shape.
Wind-Hazard Mitigation・Wind-Resistant Construction field
・ID:22222004
Sabareesh Geetha Rajasekharan BITS-Pilani, Hyderabad Campus, India Determining design wind loads on typical structures exposed to tornado like flow
Wind-Hazard Mitigation・Wind-Resistant Construction field
・ID:22222005
Rajesh Goyal National Institute of Construction Management and Research Impact of tornado vortex induced aerodynamic loads on structural projections in low rise buildings
Indoor Environment field
・ID:22222006
Shinya Morikami National Institute of Technology Toyota College Study on sweating and evaporative model and skin wettedness by using sweating thermal manikin
Indoor Environment field
・ID:22222007
Weirong Zhang Beijing University of Technology Study on Multi-vent based Adaptive Ventilation (MAV) for demand-oriented indoor environment
Indoor Environment field
・ID:22222008
Yoshihisa Momoi University of Fukui Measurement of Convective Heat Transfer Coefficient and Static Pressure for Local Body Part Exposed to Fluctuating Flow using Thermal Manikin
Indoor Environment field
・ID:22222009
Takasi Kurabuchi Tokyo University of Science Evaluation of ventilation performance and effective effectiveness of devices in actual block area
Outdoor Environment field
・ID:22222010
Biao Li Harbin Institute of Technology Comparison between large scale PIV experiment and wind tunnel PIV experiment of a cube
Outdoor Environment field
・ID:22222011
Yu Zhao Dalian University of Technology The characteristics of turbulence and pollution diffusion inside urban street canyon based on vehicle canopy model
New Coronavirus infection control field
・ID:22222012
Motoya Hayashi Hokkaido University Conditions for preventing the exfiltration of floating aerosol through open and close doors of isolation rooms
New Coronavirus infection control field
・ID:22222013
Masayuki Ogata Tokyo Metropolitan University Evaluation of infection risk and effectiveness of infection prevention measures based on modes of exposure to infectious respiratory aerosol particles
New Coronavirus infection control field
・ID:22222014
Kyousuke Hiyama Meiji University Improvement of ventilation efficiency by optimal planning of natural ventilation pathways using wind catchers and its application to countermeasures against infectious spread
General Research Theme
Research Field・Number Representative Researcher Title of Research
Name Affiliation
Wind-Hazard Mitigation・Wind-Resistant Construction field
・ID:22223001
Go Tabuchi JAXA : Japan Aerospace Exploration Agency Displacement measurement of middle floor using global navigation satellite system
Wind-Hazard Mitigation・Wind-Resistant Construction field
・ID:22223002
S. W. Yoon Seoul National University of Science and Technology Wind pressure characteristics of retractable dome roofs depending on various wind environments
Outdoor Environment field
・ID:22223003
Mohd Faizal Mohamad Universiti Teknologi MARA PIV measurement of flow within vertically stratified isolated building with various floor opening locations
Fund Prepared Research
Research Field・Number Representative Researcher Title of Research
Name Affiliation
Indoor Environment field
・ID:22225001
Junta Nakano Tokai University Evaluation of Thermal Effect of Draft Using Thermal Manikin
Outdoor Environment field
・ID:22225002
Keigo Nakajima KAJIMA CORPORATION Study on method for predicting maximum instantaneous wind speed for airflow in various types of outdoor spaces

Open seminar and short term internships in FY2022 were canceled due to an expansion of new corona infection.