UFR 3-36 References

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HiFi-TURB-DLR rounded step

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Semi-confined flows

Underlying Flow Regime 3-36

References

  1. D. Greenblatt, K. B. Paschal, C.-. S. Yao, J. Harris, N. W. Schaeffler and A. E. Washburn Experimental Investigation of Separation Control Part 1: Baseline and Steady Suction. AIAA Journal, 44(12):2820–2830, 2006
  2. D. Greenblatt, K. B. Paschal, C.-. S. Yao and J. Harris Experimental Investigation of Separation Control Part 2: Zero Mass-Flux Oscillatory Blowing. AIAA Journal, 44(12):2831–2845, 2006
  3. S. Zhang and S. Zhong Turbulent Flow Separation over a Two-Dimensional Ramp Using Synthetic Jets. AIAA Journal, 49(12):2637–2649, 2011
  4. Y. Bentaleb, S. Lardeau and M. A. Leschziner Large-eddy simulation of turbulent boundary layer separation from a rounded step, Journal of Turbulence, 13(4):1–28, 2012
  5. C. L. Rumsey LES: 2-D curved backward-facing step, Available: https://turbmodels.larc.nasa.gov/Other_LES_Data/curvedstep.html. 2021
  6. K. J. Disotell and C. L. Rumsey Development of an Axisymmetric Afterbody Test Case for Turbulent Flow Separation Validation, NASA/TM-2017-219680, Langley Research Center, 2017
  7. K. J. Disotell and C. Rumsey Modern CFD Validation of Turbulent Flow Separation on Axisymmetric Afterbodies, NASA/Umich Symposium on Advances in Turbulence Modeling, 2017
  8. D. Schwamborn, T. Gerhold and R. Kessler The DLR TAU-Code: Recent Applications in Research and Industry, ECCOMAS CFD 2006 Conference, Netherlands, 2006
  9. S. R. Allmaras, F. T. Johnson and P. R. Spalart Modifications and Clarifications for the Implementation of the Spalart-Allmaras Turbulence Model, ICCFD7-1902, 7th International Conference on Computational Fluid Dynamics, Big Island, Hawaii, 2012
  10. M. L. Shur, M. K. Strelets, A. K. Travin and P. R. Spalart Turbulence Modeling in Rotating and Curved Channels: Assessing the Spalart-Shur Correction, AIAA Journal,38(5):784–792, 2000
  11. P. R. Spalart Strategies for Turbulence Modelling and Simulation, International Journal of Heat and Fluid Flow,21:252–263, 2000
  12. P. R. Spalart private communication,  2020
  13. P. R. Spalart and A. V. Garbaruk, A correction to the Spalart-Allmaras Turbulence Model, Providing More Accurate Skin Friction, AIAA journal, 2020
  14. F. Menter, M. Kuntz and R. Langtry, Ten Years of Industrial Experience with the SST Turbulence Model,Turbulence, Heat and Mass Transfer 4, 625–632, 2003
  15. P. Smirnov and F. R. Menter Sensitization of the SST Turbulence Model to Rotation and Curvature by Applying the Spalart-Shur Correction Term, ASME Journal of Turbomachinery, 131;2009
  16. B. Eisfeld, C. Rumsey and V. Togiti Verification and Validation of a Second-Moment-Closure Model, AIAA Journal,54(5):1524–1541;2016
  17. B. Eisfeld and C. Rumsey Length-Scale Correction for Reynolds Stress Modeling, AIAA Aviation Forum, 2019
  18. S. Hosseini, R. Vinuesa, P. Schlatter, A. Hanifia and D. Henningson Direct numerical simulation of the flow around a wing section at moderate Reynolds number, International Journal of Heat and Fluid Flow, 61:117–128, 2016
  19. Schlatter, P. and Örlü, R. Turbulent boundary layers at moderate Reynolds numbers: inflow length and tripping effects,Journal of Fluid Mechanics, 710:5–34, 2012
  20. F. Bassi, L. Botti, A. Colombo, A. Ghidoni and F. Massa Linearly implicit Rosenbrock-type Runge-Kutta schemes applied to the Discontinuous Galerkin solution of compressible and incompressible unsteady flows, Computers & Fluids, 118:305–320, 2015
  21. F. Bassi, S. Rebay, G. Mariotti, S. Pedinotti and M. Savini A high order accurate discontinuous finite element method for inviscid and viscous turbomachinery flows, Turbomachinery - Fluid Dynamics and Thermodynamics," 670 European Conference, 2:99–108, 1997
  22. G. Di Marzo Méthodes de Rosenbrock d’ordre 5(4) adaptées aux problemes différentiels-algébriques, MSc Mathematics Thesis, Faculty of Science, University of Geneva,  1993
  23. G. Noventa, F. Massa, S. Rebay, F. Bassi and A. Ghidoni Robustness and efficiency of an implicit time-adaptive discontinuous Galerkin solver for unsteady flows, Computers & Fluids,  204 2020
  24. D. Warnack and H. H. Fernholz The effects of a favourable pressure gradient and of the reynolds number on an incompressible axisymmetric turbulent boundary layer. part1. the turbulent boundary layer., Journal of Fluid Mechanics, 359:329–356,, 1998
  25. J. Kuehnen, D. Scarselli, M. Schaner and B. Hof Relaminarization by steady modification of the streamwise velocity profile in a pipe, Flow Turbulence & Combustion,  100:919–943, 2018
  26. R. Narashima and R. Ranjan An Assessment of the Two-Layer Quasi-Laminar Theory of Relaminarization Through Recent High-Re Accelerated Turbulent Boundary Layer Experiment, Journal of Fluids Engineering, 139(11):111205–111215, 2017
  27. S. Lardeau UFR 3-31: Flow over curved backward-facing step, Available: https://www.kbwiki.ercoftac.org/w/index.php/Abstr:UFR_3-31. [Accessed 25 July 2022], 2012
  28. F. Bassi, L. Botti, A. Colombo, D.A. Di Pietro and P. Tesini On the flexibility of agglomeration based physical space discontinuous Galerkin discretizations, Journal of Computational Physics,  2012
  29. F. Bassi, L. Botti, A. Colombo and S. Rebay Agglomeration based discontinuous Galerkin discretization of the Euler and Navier-Stokes equations, Computers and Fluids,  2012
  30. F. Bassi, A. Crivellini, S. Rebay and M. Savini Discontinuous Galerkin solution of the Reynolds-averaged Navier–Stokes and k-ω turbulence model equations, Computers and Fluids,  2005
  31. C.T. Kelley and D.E. Keyes Convergence Analysis of Pseudo-Transient Continuation, SIAM Journal on Numerical Analysis,  35(2):508–523, 1998




Contributed by: Erij Alaya and Cornelia Grabe — Deutsches Luft-und Raumfahrt Zentrum (DLR)

Front Page

Description

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Evaluation

Best Practice Advice

References


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