Downloads provided by UsageCountsOn low-frequency unsteadiness in swept shock wave–boundary layer interactions
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Ceci, Alessandro; Palumbo, Andrea; Larsson, Johan; Pirozzoli, Sergio;
On low-frequency unsteadiness in swept shock wave–boundary layer interactions
We derive a scaling law for the characteristic frequencies of wall pressure fluctuations in swept shock wave/turbulent boundary layer interactions in the presence of cylindrical symmetry, based on analysis of a direct numerical simulations database. Direct numerical simulations in large domains show evidence of spanwise rippling of the separation line, with typical wavelength proportional to separation bubble size. Pressure disturbances around the separation line are shown to be convected at a phase speed proportional to the cross-flow velocity. This information is leveraged to derive a simple model for low-frequency unsteadiness, which extends previous two-dimensional models (Piponniau et al., J. Fluid Mech., vol. 629, 2009, pp. 87–108), and which correctly predicts growth of the typical frequency with the sweep angle. Inferences regarding the typical frequencies in more general swept shock wave/turbulent boundary layer interactions are also discussed.
Italy
- Roma Tre University Italy
- University of Maryland, College Park United States
- University of Maryland United States
- University of Maryland United States
- Sapienza University of Rome Italy
compressible boundary layers; shock waves; turbulence simulation, shock waves, turbulence simulation, compressible boundary layers
compressible boundary layers; shock waves; turbulence simulation, shock waves, turbulence simulation, compressible boundary layers
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This indicator reflects the initial momentum of an article directly after its publication, based on the underlying citation network.
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