Kunugi Tomoaki | Department Of Nuclear Engineering Kyoto University
スポンサーリンク
概要
関連著者
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Kunugi Tomoaki
Department Of Nuclear Engineering Graduate School Of Engineering Kyoto University
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Kunugi Tomoaki
Department Of Nuclear Engineering Kyoto University
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KUNUGI Tomoaki
Department of Nuclear Engineering, Kyoto University
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ITO KEI
Department of Gastroenterology, Sendai City Medical Center
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OHSHIMA Hiroyuki
Advanced Nuclear System Research and Development Directorate, Japan Atomic Energy Agency
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OHSHIMA Hiroyuki
Japan Atomic Energy Agency
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Ito Kei
Advanced Nuclear System Res. And Dev. Directorate Japan Atomic Energy Agency
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SHEHATA A.
Xerox Cooperation
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MCELIGOT Donald
Idaho National Engineering and Environmental Laboratory
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KAWAMURA Takumi
NESI Inc.
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Fujii Sadao
Kanto Technical Institute Kawasaki Heavy Industries Ltd.
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Ohshima Hiroyuki
Advanced Nuclear System Res. And Dev. Directorate Japan Atomic Energy Agency
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NISHIMURA Motohiko
Power Plant Systems Division,Kawasaki Heavy Industries,Ltd.
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SHEHATA A.Mohsen
Xerox Corporation
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Nishimura Motohiko
Power Plant Systems Division Kawasaki Heavy Industries Ltd.
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Ito Kei
Department Of Applied Analysis And Complex Dynamical Systems Graduate School Of Informatics Kyoto Un
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Ohshima Hiroyuki
Advanced Nuclear System Research And Development Directorate Japan Atomic Energy Agency
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Mceligot Donald
Idaho National Engineering And Environmental Laboratory And University Of Arizona
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YONEMOTO Yukihiro
Department of Nuclear Engineering, Kyoto University
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YANAGISAWA Hiromasa
Department of Nuclear Engineering, Kyoto University
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KAWARA Zensaku
Department of Nuclear Engineering, Kyoto University
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Kawara Zensaku
Department Of Nuclear Engineering Kyoto University
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Yanagisawa Hiromasa
Department Of Nuclear Engineering Kyoto University
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Yonemoto Yukihiro
Department Of Nuclear Engineering Kyoto University
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Ito Kei
Departemetnt of Gastroenterology, Sendai City Medical Center, Japan
著作論文
- Formulations and Validations of a High-Precision Volume-of-Fluid Algorithm on Nonorthogonal Meshes for Numerical Simulations of Gas Entrainment Phenomena
- Prediction of Forced Gas Flows in Circular Tubes at High Heat Fluxes Accompanied by Laminarization
- Coalescence of Microbubble