Numerical study on viscous shear flow past a circular cylinder using integro-differential formulation

1986 ◽  
Vol 20 (1) ◽  
pp. 19-26
Author(s):  
M. M. Ei-Refaee ◽  
R. M. Ei-Taher
Keyword(s):  
Circular Cylinder ◽  
Shear Flow ◽  
Numerical Study ◽  
Differential Formulation ◽  
Flow Past ◽  
Viscous Shear ◽  
Viscous Shear Flow

scholarly journals Numerical Study on Viscous Shear Flow past a Circular Cylinder

1980 ◽  
Vol 23 (186) ◽  
pp. 1952-1958 ◽  
Author(s):  
Hisataka TAMURA ◽  
Masaru KIYA ◽  
Mikio ARIE
Keyword(s):  
Circular Cylinder ◽  
Shear Flow ◽  
Numerical Study ◽  
Flow Past ◽  
Viscous Shear ◽  
Viscous Shear Flow

scholarly journals Sediment transport and bedforms: a numerical study of two-phase viscous shear flow

Meccanica ◽  
2016 ◽  
Vol 51 (12) ◽  
pp. 3055-3065 ◽  
Author(s):  
F. Charru ◽  
J. Bouteloup ◽  
T. Bonometti ◽  
L. Lacaze
Keyword(s):  
Sediment Transport ◽  
Shear Flow ◽  
Numerical Study ◽  
Two Phase ◽  
Viscous Shear ◽  
Viscous Shear Flow

The viscous secondary flow ahead of an infinite cylinder in a uniform parallel shear flow

1960 ◽  
Vol 7 (1) ◽  
pp. 145-155 ◽  
Author(s):  
Alar Toomre
Keyword(s):  
Shear Flow ◽  
Lateral Displacement ◽  
Reynolds Numbers ◽  
Infinite Cylinder ◽  
List Type ◽  
Displacement Effect ◽  
Simple Method ◽  
Viscous Shear ◽  
Parallel Shear Flow ◽  
Viscous Shear Flow

A simple method is presented in this paper for calculating the secondary velocities, andthe lateral displacement of total pressure surfaces (i.e. the ‘displacement effect’) in the plane of symmetry ahead of an infinitely long cylinder situated normal to a steady, incompressible, slightly viscous shear flow; the cylinder is also perpendicular to the vorticity, which is assumed uniform but small. The method is based on lateral gradients of pressure, these being calculated from the primary flow alone. Profiles of the secondary velocities are obtained at several Reynolds numbers ahead of two specific cylindrical shapes: a circular cylinder, and a flat plate normal to the flow. The displacement effect is derived and, rathe surprisingly, is found to be virtually independent of the Reynolds number.

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