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{{ACContribs
{{ACContribs
|authors=Charles Mockett; Michael Strelets
|authors=Charles Mockett; Michael Strelets
|organisation=CFD Software GmbH and Technische Universitaet Berlin; New Technologies and Services LLC (NTS) and St.-Petersburg State Polytechnic University
|organisation=Upstream CFD GmbH, Berlin; New Technologies and Services LLC (NTS) and St.-Petersburg State Polytechnic University
}}
}}
{{UFRHeader
{{UFRHeader

Latest revision as of 10:02, 7 September 2022

High Reynolds Number Flow around Airfoil in Deep Stall

Front Page

Description

Test Case Studies

Evaluation

Best Practice Advice

References

Flows Around Bodies

Underlying Flow Regime 2-11

References

  1. Bendat JS, Piersol AG (1986) Random data, analysis and measurement procedures. John Wiley & Sons, Inc., New York Chichester Brisbane Toronto Singapore
  2. Garbaruk A, Leicher S, Mockett C, Spalart P, Strelets M, Thiele F (2010) Evaluation of time sample and span size effects in DES of nominally 2D airfoils beyond stall. Progress in Hybrid RANS-LES Modelling, Notes Numer Fluid Mech Multidiscip Design 111, pp. 87-99. Springer, Berlin Heidelberg New York
  3. Guenot D (2004) Simulation des effets instationnaires à grande échelle dans les écoulements décollés. Ph.D. thesis, SUPAERO
  4. Haase W, Aupoix B, Bunge U, Schwamborn D (eds) (2006) FLOMANIA - A European initiative on flow physics modelling. Notes Numer Fluid Mech Multidiscip Design 94. Springer, Berlin Heidelberg New York
  5. Haase W, Braza M, Revell A (eds) (2009) DESider - A European effort on hybrid RANS-LES modelling. Notes Numer Fluid Mech Multidiscip Design 103. Springer, Berlin Heidelberg New York
  6. Hoerner S (1965) Fluid-dynamic drag. Hoerner Fluid Dynamics, New Jersey
  7. Jeong J, Hussain F (1995) On the identification of a vortex. J Fluid Mech 285:69-94
  8. Kok J, Dol H, Oskam B, and van der Ven H (2004) Extra-large eddy simulation of massively separated flows. AIAA paper 2004-264
  9. Lübcke H (2001) Entwicklung expliziter Darstellungen zweiter statistischer Momente zur numerischen Simulation turbulenter Strömungen. Ph.D thesis, Technische Universität Berlin
  10. Menter F, Kuntz M, Bender R (2003) A scale adaptive simulation model for turbulent flow predictions, AIAA Paper 2003-0767
  11. Menter F, Egorov Y (2009) Formulation of the Scale-Adaptive Simulation (SAS) Model during the DESIDER Project, Notes Numer Fluid Mech and Multidiscip Design" 103. Springer, 2009
  12. Menter F, Egorov Y (2010) The Scale-Adaptive Simulation Method for Unsteady Turbulent Flow Predictions. Part 1: Theory and Model Description, Flow Turbulence and Combustion, v. No.1, pp. 113-138
  13. Mockett C (2009) A comprehensive study of detached-eddy simulation. Ph.D. thesis, Technische Universität Berlin
  14. Mockett C, Greschner B, Knacke T, Perrin R, Yan J, Thiele F (2008) Demonstration of improved DES methods for generic and industrial applications. In: Peng S-H, Haase W (eds) Advances in hybrid RANS-LES modelling. Notes Numer Fluid Mech Multidiscip Design 97. Springer, Berlin Heidelberg New York, pp 222-23
  15. Mockett C, Knacke T, Thiele F (2010) Detection of initial transient and estimation of statistical error in time-resolved turbulent flow data. In: Proceedings of the 8th International Symposium on Engineering Turbulence Modelling and Measurements (ETMM8), Marseille, France
  16. Raghunathan S, Harrison JR, Hawkins BD (1988) Thick airfoil at low Reynolds number and high incidence. J Aircr 25(7):669-671
  17. Rung T, Thiele F (1996) Computational modelling of complex boundary-layer flows. In: Proc 9th Int Symp Transp Phenom Therm-Fluid Eng, Singapore
  18. Rung T, Bunge U, Schatz M, Thiele F (2003) Restatement of the Spalart-Allmaras eddy-viscosity model in strain-adaptive formulation. AIAA J 41(7):1396-1399
  19. Schwamborn D, Gerhold T, Hannemann V (1998) On the validation of the DLR Tau code. In: Nitsche W, Heinamann HJ, Hilbig R (eds) New Results Numer Exp Fluid Mech II. Springer, Berlin Heidelberg New York
  20. Sheldahl RE, Klimas PC (1981) Aerodynamic characteristics of seven symmetrical airfoil sections through 180-degree angle of attack for use in aerodynamic analysis of vertical axis wind turbines. Sandia National Laboratories SAND80-2114
  21. Shur M , Spalart PR, Strelets M, Travin A (1996) Navier-Stokes simulation of shedding turbulent flow past a circular cylinder and a cylinder with a backward splitter plate. In Desideri G, Hirsch C, Le Tallec P, Pandolfi M, Périaux J (eds) Proc 3rd Eur Conf Comput Fluid Dyn ECCOMAS CFD. John Wiley & Sons Inc., New York Chichester Brisbane Toronto Singapore
  22. Shur M, Spalart PR, Strelets M, Travin A (1999) Detached-eddy simulation of an airfoil at high angle of attack. In: Rodi W, Laurence D (eds) Eng Turbul Model Exp 4. Elsevier, Amsterdam, pp 669-678
  23. Shur M, Strelets M, Travin A (2004) On the role of numeric in Detached-Eddy Simulation, In Proceedings of the ECCOMAS CFD Conference
  24. Spalart PR (2009) Detached-eddy simulation. Annu Rev Fluid Mech 41:181-202
  25. Spalart PR, Allmaras SR (1992) A one-equation turbulence model for aerodynamic flows. In: Proc 30th AIAA Aerosp Sci Meet Exhib, Reno
  26. Spalart PR, Jou W, Strelets M, Allmaras SR (1997) Comments on the feasibility of LES for wings, and on a hybrid RANS/LES approach. Adv DNS/LES 1
  27. Swalwell K (2005) The effect of turbulence on stall of horizontal axis wind turbines. Ph.D thesis, Monash University
  28. Swalwell K, Sheridan J, Melbourne W (2004) Frequency analysis of surface pressures on an airfoil after stall. In: Proc 21st AIAA Appl Aerodyn Conf
  29. Travin A, Shur M, Strelets M, Spalart PR (2000) Physical and numerical upgrades in the detached-eddy simulation of complex turbulent flows. In: Friedrich R, Rodi W (eds) Advances in LES of Complex Flows, Kluwer Acad., New York
  30. Travin A, Shur M, Spalart P, Strelets M (2004) On URANS solutions with LES-like behaviour. In: Proceedings of ECCOMAS congress on Computational Methods in Applied Science and Engineering, Jyväskylä, Finland
  31. Xue L (1998) Entwicklung eines effizienten parallelen Lösungsalgorithmus zur dreidimensionalen Simulation komplexer turbulenter Strömungen. Ph.D thesis, Technische Universität Berlin




Contributed by: Charles Mockett; Michael Strelets — Upstream CFD GmbH, Berlin; New Technologies and Services LLC (NTS) and St.-Petersburg State Polytechnic University

Front Page

Description

Test Case Studies

Evaluation

Best Practice Advice

References


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