Hagiwara Yoshimichi

ハギワラヨシミチ | Hagiwara Yoshimichi

Homepage URL (1)： http://www.cis.kit.ac.jp/~kitagawa/

Research field (2)： Thermal engineering , Fluid engineering

Research keywords (18)： ice-phobic surfaces , Inhibition of ice growth , Molecular dynamics study , Absorption, adsorption and transport of CO2 , 分子動力学シミュレーション , 生物熱流体力学 , 気泡流 , 熱交換器 , 乱流摩擦抵抗低減 , Microbubble , Antifreeze protein , Drag acting on dolphins , Algae , Biopolymer , Bio-thermofluid dynamics , Heat transfer enhancement , Heat exchanger , Turbulent drag reduction

Research theme for competitive and other funds (30)：

2018 - 2020 電場と音場を用いた水溶液中の生物由来物質の運動促進による氷成長の制御
2015 - 2019 氷成長抑制ポリペプチドと温度応答性物質を用いた水・氷・霜の付着しない機能面の研究
2009 - 2015 固体粒子を含む水乱流の輸送現象
2009 - 2015 Turbulent water flow with solid particles
2012 - 2014 Advanced control of ice-particle growth in ice slurry flow by a cooperative effect of antifreeze protein and ions

2011 - 2013 A highly efficient absorption/transportation system of carbon dioxide gas using turbulent water flow with adsorption particles

2008 - 2013 機能性冷却面の開発

2008 - 2013 Development of smart heat transfer surface for mist cooling

2009 - 2011 The inhibition of ice growth, appropriate for the energy-saving and safety improvement for foods and medical treatment, by using antifreeze protein

2007 - 2008 Studies on the inhibition of ice crystal growth in narrow regions by antifreeze protein

2004 - 2006 氷-水界面にある活性不凍化タンパク質の分子レベルの測定と数値シミュレーション

2002 - 2003 BASIC STUDIES ON THE DEVELOPMENT OF HIGHLY EFFICIENT COMPACT HEAT EXCHANGER WITH LOW ENVIRONMENTAL LOAD

2003 - マイクロバブルによる鉛直平板自然対流熱伝達の促進

2003 - Enhancement of natural convection heat transfer along a vertical plate by using micro bubbles

1999 - 2000 An experimental study on the effect of polymers on the sustaining mechanism of turbulent heat transfer in turbulent water duct flow

1999 - 不凍化タンパク質による相変化の制御に関する研究

1999 - Study on the control of phase change with antifreeze protein

1995 - 1995 混相乱流のモデル

1995 - 柔軟壁あるいは生体高分子による乱流摩擦抵抗低減

1995 - Friction drag reduction of turbulent flows by colmpliant surface or biopolymers

1993 - 1993 相界面の変形を考慮にいれた分散性混相乱流のモデリング

1991 - 1993 Mechanism of Unsteady Flow Heat Transfer and Its Modelling

1993 - 分散性混相乱流の流動と熱伝達の研究

1993 - Study on flow and heat transfer in turbulent dispersed multiphase flow

1988 - 1990 Basic Study on the Heat Transfer Augmentation in a Recirculating Flow Region

1989 - 1989 流れの不安定現象を利用する高性能伝熱面の開発に関する基礎研究

1988 - 1988 流れの不安定現象を利用する高性能伝熱面の開発に関する基礎研究

1985 - 1987 Fundamental Research on Flow and Heat Transfer Characteristrics of Turbulent Duct Flow with Injection

1986 - 1986 水平円管内環状二相流の流動・伝熱特性に関する研究

1982 - 1982 気液二相環状噴霧流の液膜流動の可視化および写真計測

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Papers (90)：

Kazuya Taira, Tomonori Waku, Yoshimichi Hagiwara. Ice Growth Suppression in the Solution Flows of Antifreeze Protein and Sodium Chloride in a Mini-Channel. Processes. 2021. 9. 2. 306-306
Kazuya Koshio, Tomonori Waku, Yoshimichi Hagiwara. Ice-phobic glass-substrate surfaces coated with polypeptides inspired by antifreeze protein. International Journal of Refrigeration. 2020. 114. 201-209
Kazuya Kasahara, Tomonori Waku, Peter W. Wilson, Taishi Tonooka, Yoshimichi Hagiwara. The Inhibition of Icing and Frosting on Glass Surfaces by the Coating of Polyethylene Glycol and Polypeptide Mimicking Antifreeze Protein. Biomolecules. 2020. 10. 2. 259-259
Yuki Takeshita, Tomonori Waku, Peter W. Wilson, Yoshimichi Hagiwara. Effects of Winter Flounder Antifreeze Protein on the Growth of Ice Particles in an Ice Slurry Flow in Mini-Channels . Biomolecules. 2019. 9. 2. 70-70
HAGIWARA Yoshimichi. Effects of short-time preheating on ice growth in antifreeze polypeptides solutions in a narrow space. J. Heat and Mass Transfer. 2018. 54. 8. 2415-2424

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MISC (82)：

Terai Kou, HAGIWARA Yoshimichi. M1008 Molecular Dynamics Analysis on Ice Growth Inhibition by Polypeptides Based on Winter Flounder Antifreeze Protein. 2016. 2016. 91. 366-366
KIMURA Ryota, HAGIWARA Yoshimichi. M1007 Numerical Simulation on the Freezing of Droplets on Low-temperature Surfaces Using a Phase-Field Method. 2016. 2016. 91. 365-365
YAMADA Ryoma, HAGIWARA Yoshimichi. 0613 The effect of hardness and deformation on turbulent drag reduction of wavy rubber surface on the bottom of open channel. Fluids engineering conference . 2015. 2015. "0613-1"-"0613-2"
NAKATSUJI Kotaro, HAGIWARA Yoshimichi. 1507 Numerical simulation on the effects of slippery wavy walls on heat transfer and drag in turbulent channel flow. Fluids engineering conference . 2015. 2015. "1507-1"-"1507-2"
Kinoshita Teruhiko, Hagiwara Yoshimichi, Takaki Tomohiro. 1616 Numerical simulation for the dissolution of a carbon-dioxide bubble into water with a Phase-Field method. The Computational Mechanics Conference. 2013. 2013. 26. "1616-1"-"1616-2"

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Patents (2)：

流体抵抗低減構造及びその構造を用いた顔面又は頭部装着具
渦流発生器及びその発生器を用いた加熱流体通流加熱装置

Books (12)：

不凍タンパク質の機能と応用
シーエムシー出版 2018
潜熱蓄熱・化学蓄熱・潜熱輸送の最前線 -未利用熱利用に向けたサーマルギャップソリューション-
シーエムシー出版 2016
Multiphase Flow Handbook 2nd ed.
CRC Press 2016
生体模倣技術と新材料・新製品開発への応用
技術情報協会 2014
生体模倣技術と新材料・新製品開発への応用
技術情報協会 2014

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Lectures and oral presentations (74)：

The solidification of water droplets impinging on a cooling horizontal plate
(9th International Conference on Multiphase Flow 2016)
Numerical simulation of rising carbon-dioxide bubbles in downward water flow
(7th European-Japanese Two-phase Flow Group Meeting 2015)
不凍タンパク質とイオンの添加による界面温度低下
(「氷の準液体相と不凍現象」ワークショップ 2014)
On the depression of ice/water interface temperature by adding antifreeze protein and ions to water in a narrow space
(2nd International Ice-binding Conference 2014)
Turbulent drag reduction and heat transfer enhancement by slippery wavy walls
(Colloquium of Wall Turbulence 2014)

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Professional career (2)：

Doctor of Engineering (Kyoto University)
Master of Engineering (Kyoto University)

Committee career (23)：

2012/04 - 2014/04 日本機械学会代表会員
2012/03 - 2014/03 日本機械学会関西支部商議員
2007/05 - 2013/05 混相流国際会議運営委員会委員長
2010 - 2013 Chairman of Governing Board of Int. Conference of Multiphase Flow
2007 - 2013 Member of Governing Board of Int. Conference of Multiphase Flow

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Awards (2)：

2015/11 - Japan Soc. Mech. Eng., Fluids Eng. Division Fluids Engineering Award
1988 - 日本機械学会奨励賞

Association Membership(s) (13)：

エアロ・アクアバイオメカニズム学会 , THE MOLECULAR SIMULATION SOCIETY OF JAPAN , 日本流体力学会 , 日本伝熱学会 , 日本混相流学会 , 日本機械学会 , The Biophysical Society of Japan , American Physical Society , Japan Society of Fluid Dynamics , Heat Transfer Society of Japan , American Society of Mechanical Engineers , Japanese Society for Multiphase Flow , Japan Society of Mechanical Engineers

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