(Last updated : 2022-12-09 16:58:36)
  Morokuma Takayuki
   Kanagawa University  Faculty of Engineering Department of Mechanical Engineering
   Assistant Professor
■ Present specialized field
Thermal engineering 
■ Academic background
1. 2012/04~2015/03 Yokohama National University 〔Doctoral course〕 Completed
2. 2010/04~2012/03 Kanagawa University Graduate School, Division of Engineering 〔Master degree program〕 Completed
3. 2006/04~2010/03 Kanagawa University Faculty of Engineering Graduated
■ Book and Papers
1. Papers Critical heat flux enhancement in narrow gaps via different-mode-interacting boiling with nonuniform thermal conductance inside heat transfer plate  (Collaboration) 
2. Papers Combination of laser interferometric and laser extinction methods for precise thickness measurement of liquid film between coalescing twin air bubbles  (Collaboration)  2018/12
3. Papers Measurement of contribution of microlayer evaporation applying the microlayer volume change during nucleate pool boiling for water and ethanol  (Collaboration)  2018/08
4. Papers Variation of the liquid film thickness distribution between contacting twin air bubbles during the coalescence process in water and ethanol pools  (Collaboration)  2016/07
5. Papers Measurement of Liquid Film Thickness Between Coalescing Twin Air Bubbles in a Water Pool Using a Modified Laser Extinction Method  (Collaboration)  2015/11
■ Academic conference presentation
1. 2018/08 Method of the rupture film thickness measurement between approaching bubbles during coalescence process in water and ethanol pools (16th International Heat Transfer Conference)
2. 2017/03 Measurement of the thickness distribution of thin liquid film between contacting bubbles in coalescence process by combination of interferometric and laser extinction methods (The 6th Int. Symp. On Micro and Nano Tech.)
3. 2016/11 Study on a gas transport system based on thermal induced flow (30th International Symposium on Rarefied Gas Dynamics)
4. 2014/08 Breaking characteristics of thin liquid film formed by approaching bubbles (13th Joint Symp. among Sister Univ. in Mech. Eng.)
5. 2014/08 Measurement of liquid film thickness formed between colliding twin bubbles during coalescence process (15th International Heat Transfer Conference)
All display(8)
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