Organized modes and the three-dimensional transition to turbulence in the incompressible flow around a NACA0012 wing

Y. HOARAU; M. BRAZA; Y. VENTIKOS; D. FAGHANI; G. TZABIRAS

doi:10.1017/S0022112003006530

Abstract

The transition to turbulence in the incompressible flow around a NACA0012 wing at high incidence is studied by DNS in the Reynolds number range 800–10000. Two main routes are identified for the two-dimensional transition mechanisms: that to aperiodicity beyond the von Kármán mode via a period-doubling scenario and the development of a shear-layer instability, forced by the fundamental oscillation of the separation point downstream of the leading edge. The evolution of the global parameters as well as the variation law of the shear-layer instability wavelength are quantified. The history of the three-dimensional transition mechanisms from a nominally two-dimensional flow structure is identified beyond the first bifurcation, as well as the preferred spanwise wavelengths.

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Organized modes and the three-dimensional transition to turbulence in the incompressible flow around a NACA0012 wing

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Article contents

Organized modes and the three-dimensional transition to turbulence in the incompressible flow around a NACA0012 wing

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