Okuyama Kunito
Professor
Division of Materials Science and Chemical Engineering
Yokohama National University
Japan
Biography
School Attended (except graduate school) Tokyo Institute of Technology , Faculty of Engineering 1980 , Graduated Graduate School Attended, etc. Tokyo Institute of Technology , Graduate School, Division of Science and Engineering 1985 , Completed Career Research 1988-2016 Engaged in research on transient boiling phenomena under rapid heating conditions 1995-2016 Engaged in research on microactuators using liquid-vapor phase change 2000-2016 Engaged in research on enhancement of boiling/evaporation heat transfer and heat transport in heat pipes 1995-2016 Engaged in research on process intensification in thermo-chemical energy conversion systems
Research Interest
Research Field (grants-in-aid-for-scientific-research classification) Thermal engineering Current Subject Transient Boiling Phenomena and Heat Transfer Transient Boiling,Heat Transfer Process intensification of thermo-chemical energy conversion Thermo-Chemical Energy Conversion , Process intensification Micro-actuators using liquid-vapor phase change Micro-actuator,liquid-vapor phase change,pulse heating Enhancement of heat transfer and heat transport in thermal devices using liquid-vapor phase change phenomena liquid-vapor phase change , thermal devices , heat transfer enhancement
Publications
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CHF enhancement of a large heated surface by a honeycomb porous plate and a gridded metal structure in a saturated pool boiling of nanofluid (Suazlan Mt Aznam, Shoji Mori, Azuki Ogoshi, Kunito Okuyama) International Journal of Heat and Mass Transfer vol.115 (p.969-980) 2017/08
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Dynamic behavior with rapid evaporation of an inkjet water droplet upon collision with a high-temperature solid above the limit of liquid superheat (Kunito Okuyama, Kensuke Yoshida) International Journal of Heat and Mass Transfer vol.116 (p.994-1002) 2017/09
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Critical Heat Flux Enhancement by a Two-layer Structured Honeycomb Porous Plate in a Saturated Pool Boiling of Water (Shoji Mori, Naru Maruoka, Kunito Okuyama) International Journal of Heat and Mass Transfer vol.118 (p.429-438) 2017/11
