UFR 2-11 References: Difference between revisions

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===Underlying Flow Regime 2-11===
===Underlying Flow Regime 2-11===
= References =
= References =
{{Demo_UFR_References}}
1. Bendat JS, Piersol AG  (1986)  Random  data,  analysis  and  measurement
 
    procedures. John Wiley  &  Sons,  Inc.,  New  York  Chichester  Brisbane
* Reference 1
    Toronto Singapore
* Reference 2 ...
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 incedence. 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 pressure 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
<br/>
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Revision as of 09:24, 5 September 2011

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 incedence. 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 pressure 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; Misha Strelets — CFD Software GmbH and Technische Universitaet Berlin; New Technologies and Services LLC (NTS) and Saint-Petersburg State University

Front Page

Description

Test Case Studies

Evaluation

Best Practice Advice

References


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