А. В. Бойко scite author profile

The modification of the mean and fluctuating characteristics of a flat-plate boundary layer subjected to nearly isotropic free stream turbulence (FST) is studied experimentally using hot-wire anemometry. The study is focussed on the region upstream of the transition onset, where the fluctuations inside the boundary layer are dominated by elongated flow structures which grow downstream both in amplitude and length. Their downstream development and scaling are investigated and the results are compared with those obtained by previous authors. This allows some conclusions about the parameters which are relevant for the modelling of the transition process. The mechanisms underlying the transition process and the relative importance of the Tollmien–Schlichting wave instability in this flow are treated in an accompanying paper (part 2 of the present report).

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Experiments in a boundary layer subjected to free stream turbulence. Part 2. The role of TS-waves in the transition process

Бойко

et al. 1994

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The natural occurrence of Tollmien-Schlichting (TS) waves has so far only been observed in boundary layers subjected to moderate levels of free stream turbulence (Tu < 1%), owing to the difficulty in detecting small-amplitude waves in highly perturbed boundary layers. By introducing controlled oscillations with a vibrating ribbon, it is possible to study small-amplitude waves using phase-selective filtering techniques. In the present work, the effect of TS-waves on the transition is studied at Tu = 1.5%. It is demonstrated that TS-waves can exist and develop in a similar way as in an undisturbed boundary layer. It is also found that TS-waves with quite small amplitudes are involved in nonlinear interactions which lead to a regeneration of TS-waves in the whole unstable frequency band. This results in a significant increase in the number of turbulent spots, which promote the onset of turbulence.

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Steady and unsteady Görtler boundary-layer instability on concave wall

Бойко

Ivanov

Kachanov

et al. 2010

European Journal of Mechanics - B/Fluids

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The Origin of Turbulence in Near-Wall Flows

et al. 2002

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Efficiency of Air Microblowing Through Microperforated Wall for Flat Plate Drag Reduction

Kornilov

Бойко

2012

AIAA Journal

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А. В. Бойко

Experiments in a boundary layer subjected to free stream turbulence. Part 1. Boundary layer structure and receptivity

Experiments in a boundary layer subjected to free stream turbulence. Part 2. The role of TS-waves in the transition process

Steady and unsteady Görtler boundary-layer instability on concave wall

The Origin of Turbulence in Near-Wall Flows

Efficiency of Air Microblowing Through Microperforated Wall for Flat Plate Drag Reduction

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