Mochizuki Shinsuke | Department Of Mechanical Energy Engineering Yamaguchi University
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概要
- MOCHIZUKI Shinsukeの詳細を見る
- 同名の論文著者
- Department Of Mechanical Energy Engineering Yamaguchi Universityの論文著者
関連著者
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Mochizuki Shinsuke
Department Of Mechanical Energy Engineering Yamaguchi University
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Osaka Hideo
Department Of Mechanical Engineering
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MOCHIZUKI Shinsuke
Department of Mechanical Engineering, Yamaguchi University
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Osaka Hideo
Department Of Mechanical Engineering Yamaguchi University
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KAMEDA Takatsugu
Department of Mechanical Engineering, Yamaguchi University
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Mochizuki Shinsuke
Department Of Mechanical Engineering Yamaguchi University
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望月 信介
山口大学大学院理工学研究科
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TSUJI Yoshiyuki
Department of Energy Engineering and Science, Nagoya University
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Matsubara Masaharu
Department Of Mechanical System Engineering Shinshu University
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Tsuji Yoshiyuki
Department Of Energy Engineering And Science Nagoya University
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Tsuji Yoshiyuki
Department Of Energy Engineering And Science Faculty Of Engineering Nagoya University
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Hattori Tomohiro
Department Of Mechanical System Engineering Shinshu University
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Inada Masaru
Department Of Earth System Science And Technology Riam Kyushu University
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YAMADA Seiji
Yamaguchi Pref. Inst. Industrial Technology
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FUJII Hideki
Mazda Ltd. Co.
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SUGIHARA Masahiro
Department of Mechanical Engineering, Yamaguchi University
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Sugihara Masahiro
Department Of Mechanical Engineering Yamaguchi University
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MORI Kiyoto
Department of Energy Engineering and Science, Nagoya University
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IMANISHI Hiroki
Department of Energy Engineering and Science, Nagoya University
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KASIWAGI Tadashi
Department of Earth System Science and Technology, RIAM, Kyushu University
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Mori Kiyoto
Department Of Energy Engineering And Science Nagoya University
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Imanishi Hiroki
Department Of Energy Engineering And Science Nagoya University
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Kasiwagi Tadashi
Department Of Earth System Science And Technology Riam Kyushu University
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NISHI Sigeo
Department of Mechanical Engineering, Hiroshima Institute of Technology
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Nishi Sigeo
Department Of Mechanical Engineering Hiroshima Institute Of Technology
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NISHI Shigeo
Department of Mechanical Engineering, Hiroshima Institute Technical
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Nishi Shigeo
Department Of Mechanical Engineering Hiroshima Institute Technical
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WIN Aung
Department of Mechanical Engineering, Yamaguchi University
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SUGIHARA Masahiro
Department of Applied Chemistry and Biotechnology, Graduate School of Engineering, Chiba University
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OSAKA Hideo
Department of Mechanical Engineering, Yamaguchi University
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TSUJI Yoshiyuki
Department of Energy Engineering & Science, Nagoya University
著作論文
- Response of the Fully Developed Pipe Flow to Rough Wall Disturbances (Mean Velocity Field)
- Self-preservation of a turbulent boundary layer over d-type roughness
- Direct total skin-friction measurement of a flat plate in zero-pressure-gradient boundary layers
- The Coherent Structure of a Plane Turbulent Wall Jet : Analysis with the Four-Quadrant Method : Series B : Fluid Engineering, Heat Transfer, Combustion, Power, Thermophysical Properties
- Management of a Stronger Wall Jet by an Embedded Streamwise Vortex : Reynolds Stresses Distributions and Evaluation of the Vorticity Transport Equation
- Streamwise Vortical Structure Associated with the Bursting Phenomenon in the Bursting Phenomenon in the Turbulent Boundary Layer over a d-Type Rough Surface at a Low Reynolds Number : Series B : Fluid Engineering Heat Transfer Combustion, Power Thermophys
- The Coherent Structure of a Turbulent Boundary Layer Over a d-Type Rough Surface at a Low Reynolds Number : Analysis With the Four Quadrant Method
- On The Detection of the Bursting Events with the VITA Technique : Series B : Fluid Engineering, Heat Transfer, Combustion, Power, Thermophysical Properties
- The Coherent Structure of a Turbulent Boundary Layer over a d-Type Rough Surface : Analysis with the VITA Technique and the Four Quadrant Method : Series B : Fluid Engineering, Heat Transfer, Combustion, Power, Thermophysical Properties
- The coherent structure of a turbulent boundary layer over a d-type rough surface at a low Reynolds number : Analysis with the VITA technique and statistical characteristics : Series B : Fluid Engineering, Heat Transfer, Combustion, Power, Thermophysical P
- Flow Management of a Plane Turbulent Wall Jet by a Streamwise Vortex Pair with Periodic Variation in Strength and Radius