IGUCHI Manabu | Faculty of Engineering, Osaka University

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• IGUCHI Manabuの詳細を見る
• 同名の論文著者
• Faculty of Engineering, Osaka Universityの論文著者

関連著者

• IGUCHI Manabu

  Faculty of Engineering, Osaka University

• Iguchi Manabu

  Faculty Engineering Osaka University

• OHMI Munekazu

  Faculty of Engineering, Osaka University

• Ohmi Munekazu

  Faculty Engineering Osaka University

• Ohmi Munekazu

  Faculty Of Engineering Osaka University

• Iguchi Manabu

  Faculty Of Engineering Osaka University

• Iguchi M

  Osaka Univ. Osaka Jpn

• URAHATA Ikuo

  Faculty Engineering. Oasaka University

• Urahata Ikuo

  Faculty Of Engineering Osaka University

• Ohmi M

  Teikyo Univ. Utsunomiya Jpn

• AKAO Fujio

  Faculty of Engineering, Osaka University

• AKAO Fujio

  Kure Technical College

• Morita Zen-ichiro

  Faculty Of Engineering Osaka University

• Akao Fujio

  Faculty Of Engineering Osaka University

• MORITA Zen-ichiro

  Faculty of Engineering, Osaka University

• YAMAMOTO Fujio

  Faculty of Engineering, Fukui University

• USUI Tateo

  Faculty of Engineering, Osaka University

• Morita Zen-ichiro

  Osaka University

• Usui Tateo

  Faculty Of Engineering Osaka University

• Yamamoto Fujio

  Faculty Of Engineering Fukui University

• TSUJINO Ryoji

  Department of Mechanical Engineering, Setsunan University

• Tsujino Ryoji

  Department Of Mechanical Engineering Faculty Of Engineering Setsunan University

• Iguchi Manabu

  Div. Of Materials Sci. And Engineering Graduate School Of Engineering Hokkaido Univ.

• Song X

  State Univ. New York Ny Usa

• Kawabata Hirotoshi

  Faculty Of Engineering Osaka University

• Chihara Tomoyuki

  Osaka University

• TAKANASHI Norihiro

  Graduate School, Osaka University

• OGAWA Yuji

  Steelmaking Process, Process Technology Laboratories, Technical Development Bureau, Nippon Steel Cor

• TOKUMITSU Naoki

  Steelmaking Process, Process Technology Laboratories, Technical Development Bureau, Nippon Steel Cor

• Park G‐m

  Chosun Univ. Kwangju Kor

• Ishikawa Masa-aki

  Nuclear Eng. Res. Labo. The University Of Tokyo

• Fujii Youichi

  Sharp Co.

• Ueda Yoshiaki

  Graduate Student Osaka Prefecture University

• SONG Xiang-qun

  Department of Mechanical Engineering, Fukui University

• SONG Xiang-Qun

  Faculty of Engineering, Fukui University

• MURAI Yuichi

  Faculty of Engineering, Fukui University

• Iguchi Manabu

  Department Of Mechanical Engineering Fukui University

• Iguchi M

  Osaka Univ. Suita Jpn

• OHMI Munekazu

  Kure National College of Technology

• YAMADA Eiji

  Graduate School of Science and Engineering, Yamagata University

• NOMURA Mitsuhiro

  Graduate School of Engineering, Setsunan University

• Song X

  Department Of Mechanical Engineering Fukui University

• MINAMI Haruyasu

  Marushima Hydraulic Works, Ltd.

• Takeuchi Hiroaki

  Faculty of Science, Kanagawa University

• Ueda Yoshiaki

  Graduate School Of Engineering Hokkaido University

• Tokumitsu Naoki

  Steelmaking Process Process Technology Laboratories Technical Development Bureau Nippon Steel Corpor

• TAKANO Makoto

  Hitachi Metals, Ltd.

• Nomura Mitsuhiro

  Graduate School Of Engineering Setsunan University

• Takanashi Norihiro

  Graduate School Osaka University

• Ogawa Yuji

  Steelmaking Process Process Technology Laboratories Technical Development Bureau Nippon Steel Corpor

• Ogawa Yuji

  Steel Research Laboraorties Nippon Steel Corporation

• Iguchi Manabu

  Faculty Of Engineering Hokkaido University

• Yamamoto F

  Fukui Univ. Fukui‐shi Jpn

• 山本 富士夫

  福井大学大学院工学研究科ファイバーアメニティ工学専攻

• Kurobe Jun

  Steel And Technology Development Laboratories Nisshin Steel Co. Ltd.

• Kurobe Jun

  Steel & Technology Development Laboratories Nisshin Steel Co. Ltd.

• Ohmi Munekazu

  Teikyo University

• Song X

  Department Of Mechanical And Aerospace Engineering State University Of New York

• MIURA Hiroshi

  Sumitomo Special Metals Co. Ltd.

• MATSUBARA Shigeo

  Steel and Technology Development Laboratories, Nisshin Steel Co., Ltd.

• NAKAMOTO Kazunari

  Steel and Technology Development Laboratories, Nisshin Steel Co., Ltd.

• PARK Gil-Moon

  College of Engineering, Chosun University

• MAEGAWA Kazunori

  Daikin Kogyo Co.

• TANAKA Shigeru

  Kokubu Works of Hitachi, Ltd.

• KAKEHASHI Koichiro

  Kubota Ltd.

• MASUDA Tetsuya

  Daikin Kogyo Co.

• SHINKAWA Masaki

  Graduate School, Osaka University

• NAKAMURA Hideyo

  Osaka University

• Minami Haruyasu

  Marushima Hydraulic Works Ltd.

• Shinkawa Masaki

  Graduate School Osaka University

• Matsubara Shigeo

  Steel And Technology Development Laboratories Nisshin Steel Co. Ltd.

• Nakamoto Kazunari

  Steel And Technology Development Laboratories Nisshin Steel Co. Ltd.

• Takano Makoto

  Hitachi Metals Ltd.

• Yamada Eiji

  Graduate School Of Science And Engineering Yamagata University

• Takeuchi Hiroaki

  Faculty Of Engineering Osaka University

• Yamada Eiji

  Graduate School Osaka University:sharp Corporation

• Tanaka Shigeru

  Kokubu Works Of Hitachi Ltd.

• 宋 向群

  Faculty of Engineering, Fukui University

• 山本 富士夫

  Faculty of Engineering, Fukui University

• 井口 学

  Faculty of Engineering, Osaka University

• Sugawara Naoya

  Undergraduate Student, Osaka University

• Demoto Yoji

  Graduate School, Osaka University

• Sumida Yutaka

  Graduate Student, Osaka University

• Okada Ryusuke

  Undergraduate Student, Osaka University

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著作論文

• X-ray Fluoroscopic Observation of Bubble Characteristics in a Molten Iron Bath
• デローニー三角分割に基づく新しいPIV相関アルゴリズムの提案
• Transient Powder-Laden Liquid Jet in a Pipe Flow
• The Structure of Turbulence in Pulsatile Pipe Flow Accompanied by Relaminarization
• Velocity Distributions in Laminar Phases for Oscillatory Rectangular Duct Flows with Occurrence of Turbulent Transition
• 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
• Radial Propagation of Turbulence in Pulsatile Pipe Flow
• Cold Model Experiment on Fluid Flow Phenomena in Hot Dip Plating Bath
• Behavior of Turbulent Slugs in a Transient Pipe Flow
• Mean Flow Characteristics of a Pulsating Round Jet
• A Study on Velocity Profiles of Developing Laminar Oscillatory Flows in a Square Duct
• 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
• Loss Coefficients for Flows Through a Sudden Expansion and a Sudden Contraction Closely Placed : Series B : Fluid Engineering, Heat Transfer, Combustion, Power, Thermophysical Properties
• 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
• Mean Velocity and Turbulence of Water Flow in a Cylindrical Vessel Agitated by Bottom Air Injection
• Bubble Behavior in Hg-Air Vertical Bubbling Jets in a Cylindrical Vessel.
• Evaluation of Critical Gas Flow Rate for the Entrapment of Slag Using a Water Model.

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