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| JOURNAL PAPERS with IF |
K. Koshio, T. Waku, Y. Hagiwara
Ice-phobic glass-substrate surfaces coated with polypeptides inspired by
antifreeze protein
International Journal of Refrigeration 114, 201-209 (2020) |
K. Kasahara, T. Waku, P. W. Wilson, T. Tonooka, Y. Hagiwara
The inhibition of icing and frosting on glass surfaces by the coating of
polyethylene glycol and polypeptide mimicking antifreeze protein
Biomolecules 10, 1-13 (2020) [Link] |
M. Shintani, Y. Hagiwara
Pressure drag and friction drag for truncated pyramids in a turbulent open
channel flow
Journal of Fluid Science and Technology 14, 1-17 (2019) |
S. Yonezawa, H. Agui, H. Ohkubo, Y. Hagiwara
Suppression of frost layer growth on glass or copper surfaces with micro-scale
lattice-patterned grooves
International Journal of Refrigeration 106, 33-40 (2019) |
Y. Takeshita, T. Waku, P.W. Wilson, Y. Hagiwara
Effects of winter flounder antifreeze protein on the growth of ice particles
in an ice slurry flow in mini-channels
Biomolecules 9, 1-12 (2019) [Link] |
T. Watamura, A. Kitagawa, Y. Murai
Cloud structuring of microbubbles ascending along a vertical wall
Chemical Engineering Science 208, 115132 (2019) [Link] |
A. Kitagawa, P. Denissenko, Y. Murai
Behavior of bubbles moving along horizontal flat plates with different
surface wettability
Experimental Thermal and Fluid Science 104, 141-152 (2019) [Link] |
K. Koshio, K. Arai, T. Waku, P. W. Wilson, Y. Hagiwara
Suppression of droplets freezing on glass surfaces on which antifreeze
polypeptides are adhered by a silane coupling agent
PLOS ONE 13, article no. 0204686, 1-15 (2018) |
T. Miyamoto, N. Nishi, T. Waku, N. Tanaka, Y. Hagiwara
Effects of short-time preheating on ice growth in antifreeze polypeptides solutions in a narrow space
Heat and Mass Transfer 54, 2415-2424. (2018) |
T. Yasui, T. Kaijima, K. Nishio, Y. Hagiwara
Molecular dynamics analysis of synergistic effects of ions and winter flounder
antifreeze protein adjacent to ice-solution surfaces
Crystals 8, paper no. 302, 18p (2018) [Link] |
Y. Hagiwara, S. Ishikawa, R. Kimura, K. Toyohara
Ice growth and interface oscillation of water droplets impinged on a cooling
surface
Journal of Crystal Growth 468, 46-53. (2017) [Link] |
A. Kitagawa, P. Denissenko, Y. Murai
Effect of heated wall inclination on natural convection heat transfer in
water with near-wall injection of millimeter-sized bubbles
International Journal of Heat and Mass Transfer 113, 1200-1211 (2017) [Link] |
A. Kitagawa, P. Denissenko, Y. Murai
Effect of wall surface wettability on collective behavior of hydrogen microbubbles
rising along a wall
Experimental Thermal and Fluid Science 80, 126-138 (2017) [Link] |
N. Nishi, T. Miyamoto, T. Waku, N. Tanaka, Y. Hagiwara
Ice growth inhibition in antifreeze polypeptide solution by short-time
solution preheating
PLOS ONE article no. PONE-D-15-49111, 1-15 (2016) [Link] |
Y. Nohara, Y. Hagiwara
Diffusion of cations in salt solutions between ice walls
Molecular Simulation 41, 980-985 (2015) [Link] |
Y. Hagiwara, H. Aomatsu
Supercooling enhancement by adding antifreeze protein and ions to water
in a narrow space
International Journal of Heat and Mass Transfer 86, 55-64 (2015) [Link] |
A. Kitagawa, Y. Murai
Pulsatory rise of microbubble swarm along a vertical wall
Chemical Engineering Science 116, 694-703. (2014) [Link] |
D.C. Trieu, R. Yamasaki, Y. Hagiwara
Drags acting on a wavy plate with symmetrical ridgelines simulating folded skins of dolphins
Journal of Aero Aqua Bio-mechanisms 3, 29-35. (2013) [Link] |
A. Kitagawa, T. Mimura, M. Ishikawa, Y. Murai
Visualization of counter-current convection induced by microbubbles and
small particles
Journal of Visualization 16, 313-321. (2013) [Link] |
A. Kitagawa, Y. Murai
Natural convection heat transfer from a vertical heated plate in water
with microbubble injection
Chemical Engineering Science 99, 215-224. (2013) [Link] |
K. Hayakari, Y. Hagiwara
Effects of ions on winter flounder antifreeze protein and water molecules near an ice/water interface
Molecular Simulation 38, 26-37. (2012) [Link] |
Y. Hagiwara, D. Yamamoto
Temperature distribution and local heat flux in the unidirectional freezing
of antifreeze-protein solution
International Journal of Heat and Mass Transfer 55, 2384-2393. (2012) [Link] |
Y. Hagiwara
Effects of bubbles, droplets or particles on heat transfer in turbulent
channel flows
Flow, Turbulence and Combustion 86, 343-367. (2011) [Link] |
A. Kitagawa, H. Endo, Y. Hagiwara
Effects of sub-millimeter-bubble injection on transition to turbulence in natural convection boundary layer along a vertical plate in water
Experiments in Fluids 51, 701-710. (2011) [Link] |
Y. Hagiwara, R. Sakurai, R. Nakanishi
Temperature of the solution of winter flounder antifreeze protein near
ice surfaces in a narrow space
Journal of Crystal Growth 312, 314-322. (2010) |
A. Kitagawa, K. Kimura, Y. Hagiwara
Experimental investigation of water laminar mixed-convection flow with
sub-millimeter bubbles in a vertical channel
Experiments in Fluids 48, 509-519. (2010) |
A. Kitagawa, K. Kitada, Y. Hagiwara
Experimental study on turbulent natural convection heat transfer in water with sub-millimeter-bubble injection
Experiments in Fluids 49, 613-622. (2010) |
A. Kitagawa, K. Uchida, Y. Hagiwara
Effects of bubble size on heat transfer enhancement by sub-millimeter bubbles
for laminar natural convection along a vertical plate
International Journal of Heat and Fluid Flow 30, 778-788. (2009) |
Y. Hagiwara
Some biological hints on the control of heat and mass transfer
Journal of Thermal Science and Technology 3, 381-390. (2008) |
T. Nobekawa, Y. Hagiwara
Interaction among a twelve-residue segment of antifreeze protein type I, or its mutants, an ice nucleus and water molecules
Molecular Simulation 34, 591-610. (2008) |
T. Nobekawa, H. Taniguchi, Y. Hagiwara
Interaction between a twelve-residue segment of antifreeze protein type
I, or its metants, and water molecules
Molecular Simulation 34, 309-325. (2008) |
A. Kitagawa, K. Kosuge, Y. Hagiwara
Heat transfer enhancement for laminar natural convection along a vertical
plate due to sub-millimeter-bubble injection
Experiments in Fluids 45, 473-484. (2008) |
A. Kitagawa, Y. Hagiwara, T. Kouda
PTV investigation of phase interaction in dispersed liquid-liquid two-phase turbulent swirling flow
Experiments in Fluids 42, 871 - 880. (2007) |
S. Koyama, K. Takashima, Y. Hagiwara
Turbulence modification in flow around a periodically deforming film
Journal of Turbulence 8, 1-20. (2007) |
Y. Hagiwara, T. Kawai, M. Tanaka
Direct numerical simulation on turbulent heat transfer in water flow with
immiscible droplets
Multiphase Science and Technology 19, 373-391. (2007) |
T. Kouda, Y. Hagiwara
An experimental study on turbulent swirling water flow with immiscible droplets
International Journal of Heat and Fluid Flow 27, 611-618. (2006) |
T. Kouda, Y. Hagiwara
Turbulent swirling water flow with oil droplets
Multiphase Science and Technology 18, 55-72. (2006) |
M. Goto, N. Matsukura, Y. Hagiwara
Heat transfer characteristics of warm water flow with cool immiscible droplets in a vertical pipe
Experimental Thermal and Fluid Science 29, 371-381. (2005) |
Y. Hagiwara, T. Suzaki, D. Saegusa
Interaction between near-wall turbulence structure and immiscible droplets
falling with wobbling motion in upward water flow
International Journal of Energy 30, 181-195. (2005) |
| BOOKS |
Peter W. Wilson, Yoshimichi Hagiwara
生物の優れた機能から着想を得た新しいものづくり ―バイオミメティクスからの発展―
Bio-inspired slippery and ice-repellent coatings-fast growing fields in
materials science
第1編第2章, シーエムシー出版(2018), pp.16-25.
|
米澤 翔,萩原 良道
生物の優れた機能から着想を得た新しいものづくり ―バイオミメティクスからの発展―
イルカの表皮から着想を得た波状面による乱流摩擦抵抗低減
第2編第4章, シーエムシー出版(2018), pp.73-80. |
新谷 充弘,萩原 良道
生物の優れた機能から着想を得た新しいものづくり ―バイオミメティクスからの発展―
開水路底面に配置された角錐台の波状表面による圧力抗力および摩擦抗力の低減効果の検証
第2編第5章, シーエムシー出版(2018), pp.81-90. |
小塩 和哉,萩原 良道
生物の優れた機能から着想を得た新しいものづくり ―バイオミメティクスからの発展―
冬カレイ由来の不凍タンパク質の代替物質であるポリペプチドを用いた着氷を抑制する機能表面
第3編第2章, シーエムシー出版(2018), pp.122-130. |
田和 貴純,萩原 良道
生物の優れた機能から着想を得た新しいものづくり ―バイオミメティクスからの発展―
セルロースナノファイバーの氷結晶成長抑制能について
第3編第3章, シーエムシー出版(2018), pp.131-137. |
石川 将次,萩原 良道
生物の優れた機能から着想を得た新しいものづくり ―バイオミメティクスからの発展―
冬カレイから着想を得た微細流路内氷スラリー流の氷成長・融解の制御
第3編第4章, シーエムシー出版(2018), pp.138-145. |
松本 光央,萩原 良道
生物の優れた機能から着想を得た新しいものづくり ―バイオミメティクスからの発展―
イルカの表皮のしわとはがれからヒントを得たすべり波状面の乱流摩擦抵抗と熱伝達に関する数値シミュレーション
第3編第7章, シーエムシー出版(2018), pp.165-172. |
萩原良道
不凍タンパク質とその応用
動物学の百科事典, 第12章バイオミメティクス, 第9節, 日本動物学会編, .668-669. (2018) / 丸善出版
|
萩原良道
不凍タンパク質とイオンの協同効果による氷結晶成長制御,不凍タンパク質の機能と応用
第1編基礎,第6章, 76-83 (2018) / シーエムシー出版 |
萩原良道
I 型不凍タンパク質とそれを基にした不凍ポリペプチドの利用
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― (監修 鈴木洋)
第IV編第2章, 167-175 (2016) / シーエムシー出版 |
萩原良道
不凍タンパク質による氷結晶成長抑制のメカニズムとその応用
生体模倣技術と新材料・新製品開発への応用, 236-241. (2014) / 技術情報協会 |
萩原良道
イルカの表皮にヒントを得た摩擦抵抗低減法とその応用
生体模倣技術と新材料・新製品開発への応用, 548-555. (2014) / 技術情報協会 |
萩原良道
機械工学ハンドブック(中島ほか編), 3.3節, 熱交換器と伝熱促進, 525-529. (2012) / 朝倉書店 |
萩原良道
エアロアクアバイオメカニズム, 3.3節, イルカの高速遊泳のなぞ, 51-56. (2011) / エアロ・アクアバイオメカニズム研究会編,
森北出版 |
H. Zhang, N. Yoshitake, Y. Hagiwara
Changes in drag acting on an angled wavy silicon-rubber plate as a model
of the skin folds of a swimming dolphin
Bio-mechanisms of Animals in Swimming and Flying, Chapter 8, 91-102. (2007) |
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