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Experimental and numerical investigation of turbulent spots in a flat plate boundary layer

Ning Hu, Yiding Zhu, Cunbiao Lee, Charles R. Smith

2025Journal of Fluid Mechanics12 citationsDOIOpen Access PDF

Abstract

The evolution of turbulent spots in a flat plate boundary layer is examined using time-resolved tomographic particle image velocimetry (Tomo-PIV) experiments and direct numerical simulation (DNS). The characteristics of flow structures are examined using timelines and material surfaces. Both the numerical and experimental results reveal a notable behaviour in the developmental process of turbulent spots: the development of low-speed streaks at the spanwise edges of turbulent spots, followed by the subsequent formation of hairpin vortices. The behaviour of these low-speed streaks is further investigated using timelines and material surfaces generated for a series of regions and development times. The results indicate that these low-speed streaks exhibit characteristic wave behaviour. The low-speed streaks are observed to lift up as three-dimensional (3-D) waves, with high-shear layers forming at the interface of these waves. These induced high-shear layers become unstable and evolve into vortices, which contribute to the expansion of the turbulent spot. These findings show the significant role of 3-D waves in the development of turbulent spots, supporting the hypothesis that 3-D waves serve as initiators of vortices at the bounding surface of a turbulent spot.

Topics & Concepts

Boundary layerTurbulenceMechanicsBlasius boundary layerSpotsBoundary layer controlBoundary layer thicknessLayer (electronics)Materials sciencePhysicsComposite materialChemistryPhysical chemistryFluid Dynamics and Turbulent FlowsWind and Air Flow StudiesParticle Dynamics in Fluid Flows
Experimental and numerical investigation of turbulent spots in a flat plate boundary layer | Litcius