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Control of laminar breakdown in a supersonic boundary layer employing streaks

Simon Kneer, Zhengfei Guo, Markus Klöker

2021Journal of Fluid Mechanics24 citationsDOIOpen Access PDF

Abstract

In this study direct numerical simulations are employed to investigate the effects of various parameters on the laminar-flow-control capabilities of narrowly spaced streaks in a supersonic boundary layer at Mach $2.0$ . Previous work by Sharma et al. ( J. Fluid Mech. , vol. 873, 2019, pp. 1072–1089) has found these streak modes, excited by a spanwise blowing-and-suction strip, to be highly effective at delaying pure oblique-type breakdown. In the present work it is shown that spectrum-enriching subharmonic modes, relevant with increasing running-length Reynolds number, do not destroy the controlling mechanism, and also a complex breakdown scenario, triggered by a multi-frequency point source, is found to be effectively controlled. Moreover, the control-streak excitation by roughness elements is compared in detail with the blowing-and-suction method, revealing relevant differing features.

Topics & Concepts

StreakBoundary layerLaminar flowMechanicsSupersonic speedSuctionMach numberReynolds numberBoundary layer controlPhysicsMaterials scienceOpticsFlow separationTurbulenceMeteorologyFluid Dynamics and Turbulent FlowsAerodynamics and Acoustics in Jet FlowsComputational Fluid Dynamics and Aerodynamics