The effect of angular misalignment on low-frequency axisymmetric wake instability

Gentile, Valeria; Van Oudheusden, B. W.; Schrijer, F. F.J.; Scarano, F

The effect of angular misalignment on low-frequency axisymmetric wake instability

Journal article (2017)

Authors

Valeria Gentile Aerodynamics

B. W. Van Oudheusden Aerodynamics

F. F.J. Schrijer Aerodynamics

F Scarano Flow Physics and Technology

Research Group

Aerodynamics

Vortex shedding Bifurcation Wakes

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Published Date

25-02-2017

Language

English

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Research Group

Aerodynamics

Abstract

The effect of angular misalignment on the low-frequency dynamics of the near wake of a blunt-based axisymmetric body is investigated at a Reynolds number of . While for axisymmetric boundary conditions all azimuthal orientations of the wake are explored with equal probability, resulting in a statistical axisymmetry, an angular offset as small as is found to suppress the low-frequency large-scale behaviour that is associated with the erratic meandering of the region of reversed flow. As a result of the misalignment, the centroid of this backflow region is displaced from the model axis and remains confined around an average off-centre position. Spectral and modal analysis provides evidence that the erratic backflow behaviour occurs within a narrow angular range of deviations from axisymmetric conditions.

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