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NASA NTRS · Presentation

Aeroheating Predictions for a Hypersonic, Turbulent Near-Wake

Published 2024-07-30 From Langley Research Center 1 author

Attribution

This is the abstract and citation. Full text lives at NASA NTRS — we link out rather than host. All credit to the authors and Langley Research Center.

Abstract

Verbatim from NASA NTRS. Not paraphrased, not summarized.

The accuracy of heating predictions using various turbulence models is examined for an axisymmetric near-wake at Mach 6. The CFD predictions are compared with experimental data collected under AGARD Working Group 18 on the wake of a 70-degree sphere-cone. The impact of grid resolution and discretization error is estimated, which allows a comparison of stacked-block and conventional structured meshes. The accuracy of steady Reynolds-averaged Navier-Stokes (RANS) models is contrasted with that of a hybrid RANS/Large-Eddy Simulation model. The predictions are made with three different CFD codes (LAURA, FUN3D, and HyperSolve), to demonstrate the code-to-code variation in the results. Steady SST models capture the qualitative nature of the heating in the wake, including the increasing peak heating with increasing Reynolds number. Spalart-Allmaras models, including SA-Catris, under-predicted the peak heating in the wake. Hybrid RANS/LES models improve upon the SA results but have their own modeling difficulties near the shear layer impingement. These results are generally consistent across solvers and grid topologies.

Author

  • Clark Pederson Langley Research Center

Keywords

  • RANS
  • compressible
  • aeroheating
  • hybrid RANS/LES
  • DDES
  • wake
  • hypersonic

Citation: Clark Pederson (2024). Aeroheating Predictions for a Hypersonic, Turbulent Near-Wake. Langley Research Center. NASA NTRS ID 20240009423. https://ntrs.nasa.gov/citations/20240009423 ↗