Downstream Development of the Wakes behind Cylinders
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概要
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Wake development behind circular cylinders and flat plates was investigated in the research water tanks. The aluminium dust method was used to observe the flow patterns. At the intermediate Reynolds number range the Karman vortex streets are formed in the wakes behind cylindrical obstacles. But these primary Karman vortex streets are not stable. They are more and more deformed as the distance from the obstacle is increased, and finally break down. Thereafter, however, the wake in most cases begins to rearrange itself again into a configuration of the Karman vortex street. The dimension of the secondary Karman vortex street thus produced is much larger than that of the primary one. For the circular cylinder, when Reynolds number is lower than about 150, the ratio of the wave length of the secondary vortex street to that of the primary one is about 1.8 to 3.6, while it is about 10 when Reynolds number is higher than about 150. Sometimes the secondary Karman vortex street simply decays by viscous diffusion as it moves downstream, but in most cases it rearranges itself again to the next Karman vortex street.
- 社団法人日本物理学会の論文
- 1959-06-05
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関連論文
- Downstream Development of the Wakes behind Cylinders
- Experimental Investigation of the Wake behind a Sphere at Low Reynolds Numbers
- Experimental Investigation of the Wall-Effect on a Cylindrical Obstacle Moving in a Viscous Fluid at Low Reynolds Numbers
- Experimental Studies of the Lift on Two Equal Circular Cylinders placed side by side in a Uniform Stream at Low Reynolds Numbers
- The Stability of Two-Dimensional Laminar Wakes at Low Reynolds Numbers
- Oscillation of the Wake behind a Flat Plate parallel to the Flow