Separated flow past a hump in a turbulent boundary layer is studied numerically using detached-eddy simulation (DES), zonal detached-eddy simulation (ZDES), delayed detached-eddy simulation (DDES), and Reynolds-averaged Navier–Stokes (RANS) modeling. The geometry is smooth so the separation point is a function of the flow solution. Comparisons to experimental data show that RANS with the Spalart–Allmaras turbulence model predicts the mean-field statistics well. The ZDES and DDES methods perform better than the DES formulation and are comparable to RANS in most statistics. Analyses motivate that modeled-stress depletion near the separation point contributes to differences observed in the DES variants. The order of accuracy of the flow solver ACUSOLVE is also documented.

Issue Section:
Fundamental Issues and Canonical Flows
Keywords:
boundary layer turbulence, flow separation, flow simulation, Navier-Stokes equations, detached-eddy simulation, delayed detached-eddy simulation, zonal detached-eddy simulation, modeled-stress depletion, boundary-layer shielding, ACUSOLVE, order of accuracy
Topics:
Boundary layer turbulence, Boundary layers, Delay differential equations, Eddies (Fluid dynamics), Flow (Dynamics), Modeling, Reynolds-averaged Navier–Stokes equations, Separation (Technology), Stress, Turbulence, Simulation
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