Ohmi Munekazu | Faculty Of Engineering Osaka University
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概要
関連著者
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OHMI Munekazu
Faculty of Engineering, Osaka University
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Ohmi Munekazu
Faculty Of Engineering Osaka University
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Ohmi Munekazu
Faculty Engineering Osaka University
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IGUCHI Manabu
Faculty of Engineering, Osaka University
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Iguchi Manabu
Faculty Engineering Osaka University
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Usui Tateo
Faculty Of Engineering Osaka University
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Ohmi M
Teikyo Univ. Utsunomiya Jpn
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USUI Tateo
Faculty of Engineering, Osaka University
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Iguchi Manabu
Faculty Of Engineering Osaka University
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Iguchi M
Osaka Univ. Osaka Jpn
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URAHATA Ikuo
Faculty Engineering. Oasaka University
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Urahata Ikuo
Faculty Of Engineering Osaka University
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KYOMEN Susumu
Kure National College of Technology
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AKAO Fujio
Faculty of Engineering, Osaka University
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AKAO Fujio
Kure Technical College
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Akao Fujio
Faculty Of Engineering Osaka University
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Kawabata Hirotoshi
Faculty Of Engineering Osaka University
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MINAMI Haruyasu
Marushima Hydraulic Works, Ltd.
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Takeuchi Hiroaki
Faculty of Science, Kanagawa University
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TAKANO Makoto
Hitachi Metals, Ltd.
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MAEGAWA Kazunori
Daikin Kogyo Co.
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TANAKA Shigeru
Kokubu Works of Hitachi, Ltd.
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KAKEHASHI Koichiro
Kubota Ltd.
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MASUDA Tetsuya
Daikin Kogyo Co.
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Minami Haruyasu
Marushima Hydraulic Works Ltd.
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TOYAMA Masao
Kobe Steel Making Co.
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Takano Makoto
Hitachi Metals Ltd.
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Takeuchi Hiroaki
Faculty Of Engineering Osaka University
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Tanaka Shigeru
Kokubu Works Of Hitachi Ltd.
著作論文
- Time-Dependent Wall Shear Stress in a Duct with Arbitrary Cross-Section
- Laminar-Turbulent Transition and Velocity Profiles of Oscillatory Rectangular Duct Flows
- Flow Pattern and Frictional Losses in Pulsating Pipe Flow : Part 5, Wall Shear Stress and Flow Pattern in a Laminar Flow
- Flow Pattern and Frictional Losses in Pulsating Pipe Flow : Part l, Effect of Pulsating Frequency on the Turbulent Flow Pattern
- A Experimental Study of Velocity Distribution and Inlet Length in the Inlet Region of Laminar Oscillatory Pipe Flow : Series B : Fluid Engineering, Heat Transfer, Combustion, Power, Thermophysical, Properties
- Turbulent Slug and Velocity Field in the Inlet Region for Pulsatile Pipe Flow : Fluids Engineering
- Flow Patterns and Frictional Losses in an Oscillating Pipe Flow
- Transition to Turbulence in a Pulsatile Pipe Flow Part 1,Wave Forms and Distribution of Pulsatile Velocities near Transition Region
- Velocity Distribution and Reattachment Length in an Oscillatory Pipe Flow through a Plate Orifice
- Flow Pattern and Frictional Losses in Pulsating Pipe Flow : Part 7 Wall Shear Stress in a Turbulent Flow
- Flow Pattern and Frictional Losses in Pulsating Pipe Flow : Part 2, Effect of Pulsating Frequency on the Turbulent Frictional Losses
- Transition to Turbulence in a Pulsatile Pipe Flow : Part 2,Characteristics of Reversing Flow Accompanied by Relaminarization
- Critical Reynolds Number in an Oscillating Pipe Flow
- Free Oscillatory Flow Across a Plate Orifice in U-Shaped Tube and the Resistance Law
- Transition to Turbulence in a Pulsatile Pipe Flow : 3rd Report, Flow Regimes and the Conditions Describing the Generation and Decay of Turbulence
- Flow Pattern and Frictional Losses in Pulsating Pipe Flow : Part 3, General Representation of Turbulent Flow Pattern
- Analysis of Free Oscillating Flow in a U-Shaped Tube
- Turbulence Structure in a Relatively Low Frequency Pulsatile Pipe Flow : Series B : Fluid Engineering, Heat Transfer, Combustion, Power, Thermophysical Properties
- Flow Pattern and Frictional Losses in Pulsating Pipe Flow : Part 6 Frictional Losses In a Laminar Flow
- Experimental Study of Turbulence in a Pulsatile Pipe Flow
- Transition to Turbulence and Velocity Distribution in an Oscillating Pipe Flow
- Flow Pattern and Frictional Losses in Pulsating Pipe Flow : Part 4, General Representation of Turbulent Frictional Losses
- Pressure and Velocity Distributions in Pulsating Turbulent Pipe Flow Part 2 Experimental Investigations
- Numerical Analysis of Transient Turbulent Flow in a Liquid Line
- Numerical Analysis of a Periodically Varying Flow in a Circular Tube Containing a Slightly Compressible Fluid
- Numerical Analysis of Pressure and Velocity Distributions for a Pulsating Turbulent Flow in a Circular Tube Containing a Slightly Compressible Fluid
- Pressure and Velocity Distributions in Pulsating Turbulent Pipe Flow Part 1 Theoretical Treatments