Flow over Rectangular Cylinders Immersed in a Turbulent Boundary Layer : Part 2 Flow Patterns and Pressure Distributions
スポンサーリンク
概要
- 論文の詳細を見る
As continuation of the foregoing paper, the present paper describes the flow patterns around the rectangular cylinders immersed in a turbulent boundary layer and the pressure distribution on the surface of the cylinders. The effect of three parameters, i.e. h/σ, u_τ/U_∞ and the width-to-height ratio b/h on the pressure distribution is examined in some detail, where b and h are respectively the width and height of the cylinder, σ is the boundary-layer thickness, u_τ is the shear velocity and U_∞ is the free- stream velocity outside the boundary layer. The main results will be summarized as follows : (a) Three sets of measurements of the mean flow and turbulence are presented for the width-to-height ratios of 2.0 and 4.0 with h/σ =1.13 and 0.554. (b) The mean velocity profile in a constant pressure half-jet theoretically obtained by Goertler. (c) The base pressure of the cylinders can be correlated with h in the form of a wall law. (d) The pressure distribution on the upstream face of the cylinders can be represented by a single curve which is irrespective of the width-to-height ratio and the boundary-layer characteristics.
- 一般社団法人日本機械学会の論文
著者
-
Kiya Masaru
Professor Faculty Of Engineering Hokkaido University
-
Takaoka Katsuya
Hakodate Dock Co. Ltd.
-
ARIE Mikio
Faculty of Engineering, Hokkaido University
-
TAMURA Hisataka
Faculty of Engineering, Hokkaido University.
-
KOSUGI Masao
Canon Co. Ltd.
-
Arie Mikio
Hokkaidou University
-
Arie Mikio
Faculty Of Engineering Hokkaido University
-
Tamura Hisataka
Faculty Of Engineering Hokkaido University
-
Tamura Hisataka
Faculty Of Engineering Hokkaido Technology
関連論文
- Flow over Rectangular Cylinders Immersed in a Turbulent Boundary Layer : Part 2 Flow Patterns and Pressure Distributions
- Laminar Boundary Layer Separation in a Uniform Shear Flow
- Discrete-Vortex Simulation of Unsteady Separated Flow behind a Nearly Normal Plate
- Characteristics of Circular Cylinders in Turbulent Flows
- Turbulent Boundary Layers Disturbed by Two-dimensional Bluff Bodies : Characteristics of Turbulence
- An Analysis of Laminar Wake behind a Symmetrical Two-Dimensional Body in a Uniform Shear Flow
- Vortex Shedding from a Two-Dimensional Blunt Trailing Edge with Unequal External Free-Stream Velocities
- Numerical Study on Viscous Shear Flow past a Circular Cylinder
- Turbulent Wakes behind Two-Dimensional Bodies in a Uniform Shear Flow
- Flow over Rectangular Cylinders Immersed in a Turbulent Boundary Layer : Part 1, Correlation between Pressure Drag and Boundary-Layer Characteristics
- Numerical Simulation of Gross Structure of Turbulent Plane Mixing Layer by Discrete-vortex Model
- Unsteady Separated Flow behind a Normal Plate Calculated by a Discrete-Vortex Model : Part 2. Modification of Velocity-Point Scheme
- Unsteady Separated Flow behind a Normal Plate Calculated by Discrete-Vortex Model : Part 1. Velocity-Point Scheme
- Effect of Buoyancy on Laminar Developing Flow Between Parallel Plates
- Effect of Non-Uniform Inlet Velocity Profile on the Development of a Laminar Flow between Parallel Plates
- Laminar Swirling Flow in the Entrance Region of a Circular Pipe
- Theory of Inviscid Shear Flow over Bluff Bodies Attached to a Plane Wall : Part 2, Application to Semielliptical Projection and Arbitrary-Shaped Body
- Aerodynamic Characteristics of a Circular Cylinder Affected by a Turbulent Plane Mixing Layer
- Theory of Inviscid Shear Flow over Bluff Bodies Attached to a Plane Wall : Part 1, Theoretical Formulation and Applications to Normal Plate and Semicircular Projection
- A Study on the Flow around Bluff Bodies Immersed in Turbulent Boundary Layers : Part 2, The Pressure Forces Acting on Inclined Plates
- A Study on the Flow Around Bluff Bodies Immersed in Turbulent Boundary Layers : Part 1, On the Form Drag of a Normal Plate
- Flow around Circular Cylinders of Finite Height Placed Vertically in Turbulent Boundary Layers