Takimoto Akira | Dept. Of Human & Mechanical Systems Engineering Kanazawa University
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概要
- TAKIMOTO Akiraの詳細を見る
- 同名の論文著者
- Dept. Of Human & Mechanical Systems Engineering Kanazawa Universityの論文著者
関連著者
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Takimoto Akira
Dept. Of Human & Mechanical Systems Engineering Kanazawa University
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Hayashi Yujiro
Dept. Of Human & Mechanical Systems Engineering Kanazawa University
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Takimoto A
Kanazawa Univ. Kanazawa Jpn
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Takimoto A
Dept. Of Human & Mechanical Systems Engineering Kanazawa University
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HAYASHI Yujiro
Dept. of Mech. Engng., Kanazawa Univ.
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林 勇二郎
金沢大学工学部
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Hayashi Y
Dept. Of Human & Mechanical Systems Engineering Kanazawa University
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Tada Yukio
Dept. Of Computer And Systems Engineering Faculty Of Engineering Kobe University
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林 勇二郎
金沢大学
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Tada Y
Kobe Univ. Kobe Jpn
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Tada Yukio
Dept. Of Human & Mechanical Systems Engineering Kanazawa University
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Kosaka Akio
Dept. Of Mechanical And Intellectual Systems Eng. Toyama University
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Kosaka Akio
Dept. Of Mechanical And Intelligent Systems Engineering Toyama University
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TAKEGOSHI Eisyun
Dept. of Mechanical and Intelligent Systems Engineering, Toyama University
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KANAYAMA Yasuharu
Sato Tekko Co. Ltd.
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Takegoshi Eisyun
Dept. Of Mechanical And Intellectual Systems Eng. Toyama University
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Takegoshi Eisyun
Dept. Of Mechanical And Intelligent Systems Engineering Toyama University
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林 勇二郎
(独)国立高等専門学校機構
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Tada Y
Kanazawa Univ. Kanazawa Jpn
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Takimoto Akira
Dept. Of Mechanical Systems Engineering Kanazawa University
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Hayashi Yujiro
Department Of Mechanical Systems Engineering Kanazawa University
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KAWAHARA Seiji
Dept. of Mech. Engng., Kanazawa Univ.
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Hayashi Y
Kanazawa Univ. Kanazawa Jpn
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Hayashi Yujiro
Dept. Of Mechanical Systems Engineering Kanazawa University
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KAWAHARA Osamu
Dept. of Mechanical Engineering, Toyama National College of Technology
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Kawahara Osamu
Dept. Of Mechanical Engineering Toyama National College Of Technology
著作論文
- Study on Combined Latent-and Sensible-Heat Thermal Energy Storage : 1st Report, Charging and Discharging Characteristics : Fluids Engineering, Heat Transfer, Combustion, Power, Thermophysical Properties,
- Enhancement and Stability of Heat Transfer from a Superheated Surface by Mist Flow
- Development of a Simultaneous Heat and Mass Recovery System for Exhaust Gas
- Heat and Mass Recovery From Exhaust Gas by Utilizing a Mist Formation
- Simulation of Freezing and Melting of Water by Molecule Dynamics Method
- Development of a Simultaneous Heat and Mass Recovery System for Exhaust Gas
- Enhancement and Stability of Heat Transfer from a Superheated Surface by Mist Flow