๐”– Bobbio Scriptorium
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Hydrodynamic forces acting on cylinders oscillating at small amplitudes

โœ Scribed by A.W. Troesch; S.K. Kim

Book ID
103923203
Publisher
Elsevier Science
Year
1991
Tongue
English
Weight
728 KB
Volume
5
Category
Article
ISSN
0889-9746

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โœฆ Synopsis

The hydrodynamic forces resulting from small-amplitude harmonic oscillations of arbitrarily shaped cylinders are considered both experimentally and theoretically. The fluid is assumed to be initially at rest. The theoretical model assumes a laminar, nonseparating flow, where the in-line force has two components, one due to normal pressure stresses and one due to skin friction. In the limit of zero amplitude oscillations, comparisons between theory and experiment demonstrate that the nonseparating theoretical model captures the essential behavior of real fluid hydrodynamics. This is valid for a variety of shapes including sharp-edged bodies such as squares. Through model testing, it is possible to estimate an "effective eddy viscosity" which can then be used in conjunction with the theoretical laminar flow model to give empirical drag coefficients.

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Transverse oscillations of a cylinder in a viscous #uid generate a force on the #uid that becomes non-linear at large oscillation amplitudes. When the cylinder motion is sinusoidal, non-linearity produces odd order harmonic distortion in the force. Numerical simulations based on the incompressible N