Outer layer turbulence dynamics in a high-Reynolds-number boundary layer up to recovering from mild separation

Abstract: The outer layer dynamics of a high-Reynolds-number boundary layer recovering from non-equilibrium is studied utilising the multi-resolution approach of zonal detached eddy simulation mode 3. The non-equilibrium conditions are obtained from a boundary layer separation over a rounded step enhancing the turbulent production, and recovery happens during redevelopment after reattachment at high Reynolds numbers ( $Re_{\theta,max}\approx 24{,}000$ ). Most of the outer layer turbulence is re… Show more

“…The ZDES approach developed by ONERA [30,31] belongs to the family of multiresolution approaches which covers the full range of modeling from RANS to Wall-Modelled LES (WMLES) [21,32,33] and aims at treating in a simple model all classes of flow problems indicated in Fig. 3.…”

On the Use of Bi-species ZDES for Multi-nozzle Space Launcher Configurations

“…The ZDES approach developed by ONERA [30,31] belongs to the family of multiresolution approaches which covers the full range of modeling from RANS to Wall-Modelled LES (WMLES) [21,32,33] and aims at treating in a simple model all classes of flow problems indicated in Fig. 3.…”

On the Use of Bi-species ZDES for Multi-nozzle Space Launcher Configurations

“…Hybrid LES/RANS methods are cost effective since they can provide an overall quite satisfactory prediction of turbulence dynamics (e.g. separation point, non-equilibrium turbulence...) with a coarser mesh than would be used in a wall-resolved large-eddy simulation [80,94] An alternative to the resolution of the full RANS equation is to solve the thin-boundary-layer 2 Data preparation and filtering…”

Data-driven wall modeling for turbulent separated flows

ZDES Simulation and Spectral Analysis of a High-Reynolds-Number Out-of-Equilibrium Turbulent Boundary Layer