FUNAZAKI Ken-ichi | Iwate University
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概要
関連著者
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FUNAZAKI Ken-ichi
Iwate University
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Funazaki Ken-ichi
Iwate Uni.
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Yamawaki Shigemichi
Ishikawajima - Harima Heavy Industries Ltd.
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Tanuma Tadashi
Toshiba Corporation
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YAMAWAKI Shigemichi
Ishikawajima-Harima Heavy Industries Co., Ltd.
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TETSUKA Nobuaki
Iwate University
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Yamawaki Shigemichi
Ishikawajima-harima Heavy Industries Co.
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Favaretto Carlos
Department Of Mechanical Engineering Iwate University
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FUNAZAKI Ken-ichi
Department of Mechanical Engineering, Iwate University
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Kitazawa Takashi
Iwate University
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Tanuma Tadashi
Steam Turbine Design Group Keihin Product Operations Toshiba Corporation
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Koyabu Eitaro
Iwate University
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WATANABE Takashi
Iwate University
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IMAMATSU Norie
Graduate School of Iwate University
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FAVARETTO Carlos
Iwate University
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ISHIZAWA Kohei
Iwate University
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YOKOTO Masaki
Iwate University
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Yamashita Yoshihiro
Iwate University
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Yamada Kazutoyo
Iwate Univ.
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Most. Nasrin
Iwate Univ.
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Funazaki Ken-ichi
Iwate Univ.
著作論文
- Boundary Layer Transition Induced by Periodic Wake Passage (Measurements of the Boundary Layer by Hot-Wire Anemometry)
- Effect of Periodic Wake Passage over Flat-Plate Boundary Layers Experiencing Favorable and Adverse Pressure Gradients
- Discussion on Accuracy of Transient Heat Transfer Measurement by Use of Thermochromic Liquid Crystal (Error Estimation by Numerical Simulations)
- TS-78 Heat Transfer Measurements of an Integrated Cooling Configuration Designed for Ultra-High Temperature Turbine Blades(Session C-9 Turbine Cooling 1)
- 1019 Numerical Simulation on the Flow Field around Turbine Nozzle Vanes with Upstream Flow Injection from the Outer Casing
- Measurement of Surface Heat Transfer inside va Serpentine Passage by Use of Liquid Crystal
- Effects of Free-Stream Turbulence and Periodic Wake Passing on the Leading Edge Film Cooling of Turbine Blade (Heat Transfer and Heat Load Distributions)
- Effects of Wake -Blade Interaction upon Aerodynamic Performance of a Turbine Linear Cascade- : 2nd Report : Wake-Decay Characteristics
- Effects of Wake -Blade Interaction upon Aerodynamic Performance of a Turbine Linear Cascade- : 1st Report : Time-Averaged Aerodynamic Performance
- Studies on Ejected Air Behaviors over a Corrugated Wall
- Studies on Unsteady Layers on a Flat Plate Subjected to Incident Wakes and Free-Stream Turbulence
- A-17 Numerical Simulation of Bypass Transition by the Approach of Intermittency Transport Equation