Laminar Viscous Flow past a Flat Plate set normal to the Stream, with Special Reference to High Reynolds Numbers
スポンサーリンク
概要
- 論文の詳細を見る
The two-dimensional flow of a viscous in compressible fluid past a flat plate set normal to the undisturbed stream is discussed on the basis of Oseen's approximation. An integral equation is derived for determining the distribution of fundamental singularities along the plate which should represent the effect of the plate upon the stream. The equation is solved for small Reynolds number R, for R→∞ and for large but finite R, respectively. The result for small R turns out to agree with the existing one, while it is shown that the case when R→∞ corresponds to Oseen's asymptotic theory. The case when R is large but finite is the main object of the present investigation. The integral equation is solved for this case by making use of a method similar to the Wiener-Hopf technique, and the first order correction to the result for R→∞ is obtained.
- 社団法人日本物理学会の論文
- 1962-02-05
著者
-
Tamada Ko
Department Of Aeronautical Engineering Faculty Of Engineering Kyoto University
-
Miyagi Tosio
Junior College Of Engineering University Of Osaka Prefecture
-
Tamada K.
Department of Aeronautical Engineering Faculty of Engineering, Kyoto University
関連論文
- Some Studies on Rarefied Gas Flows
- On the Flow of Viscous Conducting Fluid past a Magnetized Sphere
- On the Viscous Flow past a Tangential Flat Plate
- On the Pendent Drop, I
- Secondary Flow aroud an Oscillating Cylinder
- Stability of Roll-Waves on Thin Laminar Flow down an Inclined Plane Wall
- The Steady Flow of Viscous Fluid at Low Reynolds Numbers passing obliquely through a Plane Grid made of Equal Parallel Circular Cylinders
- Laminar Viscous Flow past a Flat Plate set normal to the Stream, with Special Reference to High Reynolds Numbers
- Two-Dimensional Stagnation-Point Flow Impinging Obliquely on a Plane Wall
- Viscous Flow at Low Reynolds Numbers past an Infinite Row of Equal Circular Cylinders
- Hydromagnetic Oseen Flow past an Elliptic Cylinder in a Uniform Magnetic Field
- Two-Dimensional Viscous Flow part a Rotationally-Oscillating Circular Cylinder
- Flow of Dilute Gas Due to Sinusoidal Distribution of Wall Temperature