Hisataka Tamura scite author profile

The frequency of vortex shedding from a circular cylinder in a uniform shear flow and the flow patterns around it were experimentally investigated. The Reynolds number Re, which was defined in terms of the cylinder diameter and the approaching velocity at its centre, ranged from 35 to 1500. The shear parameter, which is the transverse velocity gradient of the shear flow non-dimensionalized by the above two quantities, was varied from 0 to 0·25. The critical Reynolds number beyond which vortex shedding from the cylinder occurred was found to be higher than that for a uniform stream and increased approximately linearly with increasing shear parameter when it was larger than about 0·06. In the Reynolds-number range 43 < Re < 220, the vortex shedding disappeared for sufficiently large shear parameters. Moreover, in the Reynolds-number range 100 < Re < 1000, the Strouhal number increased as the shear parameter increased beyond about 0·1.

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Vortex Shedding From Two Circular Cylinders in Staggered Arrangement

Kiya

Arie

Tamura

et al. 1980

123

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The frequency of vortex shedding from two circular cylinders of the same diameter in staggered arrangement is experimentally investigated at a Reynolds number of 1.58 × 104. This Reynolds number is within the range where the flow around a circular cylinder is relatively insensitive to Reynolds number changes. The results are summarized in several figures from which one can obtain the Strouhal number of vortex shedding for all arrangements within distances between their centers less than 5 diameters.

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Numerical Study on Viscous Shear Flow past a Circular Cylinder

Tamura¹,

Kiya²,

Arie³

1980

Bulletin of JSME

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Turbulence properties of an axisymmetric separation-and-reattaching flow

et al. 1991

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Flow over Rectangular Cylinders Immersed in a Turbulent Boundary Layer : Part 1, Correlation between Pressure Drag and Boundary-Layer Characteristics

Arie¹,

Kiya²,

Tamura³

et al. 1975

Bulletin of JSME

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Hisataka Tamura

Vortex shedding from a circular cylinder in moderate-Reynolds-number shear flow

Vortex Shedding From Two Circular Cylinders in Staggered Arrangement

Numerical Study on Viscous Shear Flow past a Circular Cylinder

Turbulence properties of an axisymmetric separation-and-reattaching flow

Flow over Rectangular Cylinders Immersed in a Turbulent Boundary Layer : Part 1, Correlation between Pressure Drag and Boundary-Layer Characteristics

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