Research keywords (2):
Thermal Energy Engineering
, Thermo-fluid process engineering
Research theme for competitive and other funds (22):
2022 - 2025 多孔質の機能を活用した高速応答パッシブ水素生成器の開発
2019 - 2022 Method for the scale-up of an apparatus for passive production of hydrogen from liquid fuel using a packed bed of porous particles
2016 - 2019 Passive production of hydrogen using a packed bed of combined porous catalyst particles
2013 - 2016 Development of a reactor for passive production of hydrogen using a packed bed of porous material particles
2009 - 2011 Passive production of hydrogen from liquid fuel utilizing functions of porous material
2007 - 2008 Rapid generation of superheated steam using a porous material containing water
2004 - 2005 Spontaneous nucleation and resulting explosive evaporation of liquid impinging on a hot surface with a high speed
2001 - 2002 Study on Micropump Using Boiling Propagation Phenomena
2000 - 2002 Study on Transient Liquid Film Flow Caused by Marangoni Effect on a Small Heater
2000 - 2002 Study on Concentration of sea water with high performance by evapration method
1999 - 2002 Heat transfer from High temperature solid to a porous plate containing water
1999 - 2000 Depression of Incipient Boiling Temperature by Impingement of Boiling Bubbles Rapidly Generated on a Small Heater Close to the Wall
1998 - 1999 Study on the Micro-pomp utilizing Rapid Boiling
1997 - 1998 Reaction and Heat Transfer Characteristics of Catalyst-Coated Fins
1997 - 1998 Augmentation of Boiling Heat Transfer by Free Particles Bed
1996 - 1997 Fundamental Study on Micro-Actuator Utilizing Rapid Boiling
1990 - 1991 極微小伝熱面における超高熱流束下の沸騰現象に関する研究
1989 - 1989 超音波による急冷過程の増進と制御
Transient Boiling Phenomena and Heat Transfer
Micro-actuators using liquid-vapor phase change
Enhancement of heat transfer and heat transport in thermal devices using liquid-vapor phase change phenomena
Process intensification of thermo-chemical energy conversion
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Papers (94):
OKUYAMA Kunito, SHIBATA Hiroki, IWAMOTO Rei. Study on a single, straight-tube pulsating heat pipe with an open end (Function and role of the liquid film surrounding vapor plug). Transactions of the JSME (in Japanese). 2021. 87. 902. 1-14
Kunito Okuyama, Satomi Kawanishi, Risa Aoki. Onset of drying of a porous particle bed immersed in saturated water and heated with a high surface heat flux. Applied Thermal Engineering. 2020. 176. 115358
Mori Shoji, Aznam Suazlan Mt, Yanagisawa Ryuta, Yokomatsu Fumihisa, Okuyama Kunito. Measurement of a Heated Surface Temperature Using a High-Speed Infrared Camera During Critical Heat Flux Enhancement by a Honeycomb Porous Plate in a Saturated Pool Boiling of a Nanofluid. HEAT TRANSFER ENGINEERING. 2019
Saturated Flow Boiling CHF Enhancement of Water by Bilayer Honeycomb Porous Structure. 2017. E131-1-4
Taira Takafumi, Mori Shoji, Fukuda Naoya, Maruoka Naru, Okuyama Kunito. B131 The effect of honeycomb porous plate on CHF in a saturated pool boiling of FC-72. Procee[d]ings of Thermal Engineering Conference. 2015. 2015. "B131-1"-"B131-2"
MARUOKA Naru, MORI Shoji, IMAI Ryosuke, OKUYAMA Kunito. F223 The Effects of Liquid Supply on Critical Heat Flux Enhancement Using Honeycomb Porous Plate in a Saturated Pool Boiling. National Symposium on Power and Energy Systems. 2015. 2015. 20. 381-382
Suazlan Mt Aznam, Mori Shoji, Yanagisawa Ryuta, Okuyama Kunito. ICONE23-1059 CRITICAL HEAT FLUX ENHANCEMENT IN SATURATED POOL BOILING USING WATER-BASED NANOFLUID WITH HONEYCOMB POROUS PLATE. Proceedings of the ... International Conference on Nuclear Engineering. Book of abstracts : ICONE. 2015. 2015. 23. "ICONE23-1059-1"-"ICONE23-1059-6"
Mori Shoji, Osa Ryunosuke, Okuyama Kunito. F123 Transient CHF enhancement of saturated pool boiling of water using a honeycomb porous media. National Symposium on Power and Energy Systems. 2014. 2014. 19. 171-172
- 1985 Tokyo Institute of Technology Graduate School, Division of Science and Engineering
- 1980 Tokyo Institute of Technology Faculty of Engineering
Professional career (1):
Doctor of Engineering (Tokyo Institute of Technology)
Work history (16):
2023/04 - 現在 Yokohama National University Professor emeritus
2018/04 - 2023/03 Yokohama National University Graduate school of Engineering Science Department of Chemistry, Chemical Engineering and Life Science Professor
2011/04 - 2023/03 Yokohama National University College of Engineering Science Department of Chemistry, Chemical Engineering and Life Science Professor
2003/04 - 2023/03 Yokohama National University Faculty of Engineering Division of Materials Science and Chemical Engineering Professor
2003/04 - 2018/03 Yokohama National University Graduate School of Engineering Department of Materials Science and Engineering Professor
2001/04/01 - 2003/03/31 Yokohama National University Graduate School of Engineering Department of Materials Science and Engineering Associate Professor
2001/04/01 - 2003/03/31 Yokohama National University Faculty of Engineering Division of Materials Science and Chemical Engineering Associate Professor
1996/04/01 - 2001/03/31 Yokohama National University Graduate school of Engineering Associate Professor
1996/04 - 2001/03 横浜国立大学大学院工学研究科人工環境システム学専攻助教授
1993/04/01 - 1996/03/31 Yokohama National University School of Engineering Associate Professor
1988/04/01 - 1993/03/31 Yokohama National University School of Engineering Lecturer
1988/04 - 1993/03 横浜国立大学工学部物質工学科講師
1992/03 - 1993/01 米国ペンシルバニア大学 文部省在外研究員
1992/03 - 1993/01 文部省在外研究員(米国ペンシルバニア大学)
1985/04 - 1988/03 日本原子力研究所 東海研究所高温工学部 研究員
1985/04 - 1988/03 日本原子力研究所東海研究所高温工学部研究員
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Committee career (6):
2006/04 - 2008/03 日本機械学会熱工学部門総務委員会 委員
2003/04 - 2007/03 化学工学会論文誌編集委員会 編集委員
1997/05 - 1999/04 日本伝熱学会総務部会 幹事
1998/07 - 1999/03 (財)造水促進センター海水淡水化技術評価委員会 評価委員
1997/04 - 1999/03 日本機械学会熱工学部門運営委員会 委員
1994/03 - 1997/03 日本原子力研究所原子力熱利用開発研究委員会 専門委員
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Awards (6):
2024/04 - Japan Society of Mechanical Engineers Japan Society of Mechanical Engineers Award (Research paper) Liquid-solid contact behavior of a minute liquid droplet impinging on a hot solid surface
2014/05/22 - the Heat Transfer Society of Japan Scientific Contribution Award of the Heat Transfer Society of Japan EEnhancement of the critical heat flux in saturated pool boiling using honeycomb porous media
