Analysis of Free Oscillating Flow in a U-Shaped Tube
スポンサーリンク
概要
- 論文の詳細を見る
A free oscillating flow of a viscous fluid in a U-shaped tube is considered. For the case of laminar flow, an analytical representation for wall shear stress T_w which includes an acceleration term is adopted and the momentum integral equation is solved analytically. By comparing the present results with previous theoretical and experimental ones, it becomes evident that the solution obtained here agrees well with those of Biery and Yasukawa, et al., and that the solutions derived from any other approximate representations for wall shear stress are attributted to a special case of the present one. For the flow in which transition from laminar to turbulent occurs, the turbulent quasi-steady representation for T_w is used and the momentum integral equation is numerically solved by means of Runge-Kutta method. The agreement between the present numerical and experimental results is fairly good. Further, the limits between laminar, transitional, and turbulent regions are determined on the basis of the present experiments.
- 一般社団法人日本機械学会の論文
著者
-
IGUCHI Manabu
Faculty of Engineering, Osaka University
-
OHMI Munekazu
Faculty of Engineering, Osaka University
-
Iguchi Manabu
Faculty Engineering Osaka University
-
Ohmi Munekazu
Faculty Of Engineering Osaka University
-
MAEGAWA Kazunori
Daikin Kogyo Co.
-
Ohmi Munekazu
Faculty Engineering Osaka University
関連論文
- 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
- 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
- Dealloying of Cu-Zn Alloy Microchannel Lining Layers for Producing Microporous Catalyst
- Mixing Time in a Cylindrical Bath Agitated by Gas Injection through a Multi-hole Nozzle
- Fabrication of Alumina Coating on Ni-Al Alloy Microchannel Wall for Catalyst Supporting
- Fabrication of Microchannels in Metallic Wire Bundles by a Sacrificial-Core Method
- Anodization of the Inner Wall of the Microchannel Formed in Sintered Aluminum Body
- Alkali Leaching of Ni-Al Alloy Microchannel Lining Layers
- Gas-Liquid Two-Phase Flow through at Orifice in Millimeter-Scale Rectangular Channel
- Fabrication of Ni-Al Alloy Transpiration-Cooling Device by Powder-Metallurgical Microchanneling Process
- Re-examination of method of kinetic analysis on the rate of stepwise reduction of a single sinter particle with CO-CO2-N2 gas mixture.
- Structure Control of Cu-Zn Microchannel Lining Layers with Electrochemical Dissolution
- Characteristics of Poorly-Wetted Two Spheres Penetrating into a Water Bath
- Fabrication of Free-Form Channels by a combined process of Metal Injection Molding and Sacrificial-Core Method
- Anodic Oxidation Behavior of Al-Zn Alloy Lining Layer Produced by a Sacrificial-Core Method
- Composition and Structure Changes in Al_3Ni_2 Microchannel Lining Layers by Alkali Leaching
- Filtration of Ni-Al Alloy Containing By-Product Alumina in Centrifugal Combustion Synthesis
- Cold Model Study of Spout Eye Area in the Presence of the Slag Layer Simulated by Low-Density Particles
- 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.
- Flow phenomena and heat transfer around a sphere submerged in water jet and bubbling jet.
- The characteristics of water and bubbling jets in a cylindrical vessel with bottom blowing.
- Heat Transfer between Bubbles and Liquid during Cold Gas Injection.
- The Effective Viscosity and Effective Diffusivity of Bubbles in an Air-Water Vertical Bubbling Jet.
- Heat Transfer between Bubbles and Molten Wood's Metal.
- Cold Model Experiments for Developing a New Velocimeter Applicable to Molten Metal.
- The flow field in air-water vertical bubbling jets in a cylindrical vessel.
- Bubble Characteristics in the Buoyancy Region of a Vertical Bubbling Jet.