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==Confined flows==
==Confined flows==
===Underlying Flow Regime 4-16===
===Underlying Flow Regime 4-16===
<div id="0"></div>
= References =
= References =
# <div id="1">'''Abe, K. and Ohtsuka, T. (2010):''' An investigation  of  LES  and  Hybrid LES/RANS models for predicting 3-D diffuser flow. ''Int. J. Heat and  Fluid Flow'' , Vol.&nbsp;31(5), pp.&nbsp;833&ndash;844</div>
# <div id="1">'''Abe, K. and Ohtsuka, T. (2010):''' An investigation  of  LES  and  Hybrid LES/RANS models for predicting 3-D diffuser flow. ''Int. J. Heat and  Fluid Flow'' , Vol.&nbsp;31(5), pp.&nbsp;833&ndash;844</div>
Line 17: Line 18:
#<div id="8">'''Cherry, E.M., Elkins, C.J. and Eaton, J.K. (2009):''' Pressure  measurements in a three-dimensional separated diffuser. ''Int.&nbsp;J.&nbsp;of  Heat  and  Fluid Flow'', Vol.&nbsp;30(1), pp.&nbsp;1&ndash;2</div>
#<div id="8">'''Cherry, E.M., Elkins, C.J. and Eaton, J.K. (2009):''' Pressure  measurements in a three-dimensional separated diffuser. ''Int.&nbsp;J.&nbsp;of  Heat  and  Fluid Flow'', Vol.&nbsp;30(1), pp.&nbsp;1&ndash;2</div>
#<div id="9">'''Fröhlich, J. and von Terzi, D. (2008):''' Hybrid LES/RANS  methods  for  the simulation of turbulent flows. ''Prog.&nbsp;Aerosp.&nbsp;Sci.'', Vol.&nbsp;44, pp.&nbsp;349&ndash;377</div>
#<div id="9">'''Fröhlich, J. and von Terzi, D. (2008):''' Hybrid LES/RANS  methods  for  the simulation of turbulent flows. ''Prog.&nbsp;Aerosp.&nbsp;Sci.'', Vol.&nbsp;44, pp.&nbsp;349&ndash;377</div>
#<div id="10">'''Grundmann, S., Sayles E. L. and Eaton J. K. (2011):'''  Sensitivity  of  an asymmetric  3D  diffuser  to  plasma-actuator  induced  inlet  condition perturbations. Experiments in Fluids, Vol. 50(1), pp. 217-231</div>
#<div id="10">'''Grundmann, S., Sayles E. L. and Eaton J. K. (2011):'''  Sensitivity  of  an asymmetric  3D  diffuser  to  plasma-actuator  induced  inlet  condition perturbations. ''Experiments in Fluids'', Vol.&nbsp;50(1), pp.&nbsp;217&ndash;231</div>
#<div id="11">'''Grundmann, S., Sayles E. L. and Eaton J. K. (2012):'''  Sensitivity  of  an asymmetric  3D  diffuser  to  vortex-generator  induced  inlet  condition perturbations. Experiments in Fluids, Vol. 52(1), pp. 11-21</div>
#<div id="11">'''Grundmann, S., Sayles E. L. and Eaton J. K. (2012):'''  Sensitivity  of  an asymmetric  3D  diffuser  to  vortex-generator  induced  inlet  condition perturbations. ''Experiments in Fluids'', Vol.&nbsp;52(1), pp.&nbsp;11&ndash;21</div>
#<div id="12">'''Gullman-Strand,  J.,  Törnblom,  O.,  Lindgren,  B.,  Amberg,  G.  and Johansson, A.V. (2004):''' Numerical and  experimental  study  of  separated flow in a plane asymmetric diffuser. Int. J. Heat Fluid Flow, Vol. 25(3), pp. 451-460</div>
#<div id="12">'''Gullman-Strand,  J.,  Törnblom,  O.,  Lindgren,  B.,  Amberg,  G.  and Johansson, A.V. (2004):''' Numerical and  experimental  study  of  separated flow in a plane asymmetric diffuser. ''Int.&nbsp;J. Heat Fluid Flow'', Vol.&nbsp;25(3), pp.&nbsp;451&ndash;460</div>
#<div id="13">'''Hellsten, A. and Rautaheimo, P. (editors), (1999):'''  Proceedings  of  the 8th ERCOFTAC/IAHR/COST Workshop on Refined  Turbulence  Modelling,  17-18 June. Helsinki University of Technology</div>
#<div id="13">'''Hellsten, A. and Rautaheimo, P. (editors), (1999):'''  ''Proceedings  of  the 8th ERCOFTAC/IAHR/COST Workshop on Refined  Turbulence  Modelling'',  17&ndash;18&nbsp;June. Helsinki University of Technology</div>
#<div id="14">'''Jakirli&#x107;, S., Kadavelil, G., Kornhaas, M., Schäfer,  M.,  Sternel,  D.C. and Tropea, C. (2010a):''' Numerical and Physical Aspects in LES and  Hybrid LES/RANS of Turbulent Flow Separation in a 3-D Diffuser. Int. J. Heat and Fluid Flow, Vol. 31(5), pp. 820-832</div>
#<div id="14">'''Jakirli&#x107;, S., Kadavelil, G., Kornhaas, M., Schäfer,  M.,  Sternel,  D.C. and Tropea, C. (2010a):''' Numerical and Physical Aspects in LES and  Hybrid LES/RANS of Turbulent Flow Separation in a 3-D Diffuser. ''Int.&nbsp;J.&nbsp;Heat and Fluid Flow'', Vol.&nbsp;31(5), pp.&nbsp;820&ndash;832</div>
#<div id="15">'''Jakirli&#x107;, S., Kadavelil, G., Sirbubalo, E., von Terzi,  D.,  Breuer,  M. and Borello, D. (2010b):'''  14th  ERCOFTAC  SIG15  Workshop  on  Turbulence Modelling: Turbulent  Flow  Separation  in  a  3-D  Diffuser.  "Sapienza" University of Rome,  September  18,  2009,  ERCOFTAC  Bulletin,  December Issue, No. 85, pp. 5-13</div>
#<div id="15">'''Jakirli&#x107;, S., Kadavelil, G., Sirbubalo, E., von Terzi,  D.,  Breuer,  M. and Borello, D. (2010b):'''  14th  ERCOFTAC  SIG15  Workshop  on  Turbulence Modelling: Turbulent  Flow  Separation  in  a  3-D  Diffuser.  "Sapienza" University of Rome,  September  18,  2009,  ''ERCOFTAC  Bulletin'',  December Issue, No.&nbsp;85, pp.&nbsp;5&ndash;13</div>
#<div id="16">'''Jeyapaul, E. and Durbin, P. (2010):''' Turbulent  separation  in  a  three-dimensional diffuser. 8th Int. ERCOFTAC Symp. on  Engineering  Turbulence Modelling and Measurements (ETMM8), Marseille, France, June 9-11</div>
#<div id="16">'''Jeyapaul, E. and Durbin, P. (2010):''' Turbulent  separation  in  a  three-dimensional diffuser. ''8th Int. ERCOFTAC Symp. on  Engineering  Turbulence Modelling and Measurements'' (ETMM8), Marseille, France, June&nbsp;9&ndash;11</div>
#<div id="17">'''John-Puthenveettil, G. (2012):''' Computational modelling of complex  flows using eddy-resolving  turbulence  models  accounting  for  the  near-wall turbulence. PhD Thesis, Technische Universitaet Darmstadt</div>
#<div id="17">'''John-Puthenveettil, G. (2012):''' Computational modelling of complex  flows using eddy-resolving  turbulence  models  accounting  for  the  near-wall turbulence. PhD Thesis, Technische Universitaet Darmstadt</div>
#<div id="18">'''Maduta, R. and Jakirli&#x107;, S. (2011):''' An  eddy-resolving  Reynolds  stress transport model for unsteady flow computations. 4th Symposium  on  Hybrid RANS-LES Methods, Beijing, China, September 28-30. In "Advances in Hybrid RANS-LES Modelling 4", 2012.  Notes  on  Numerical  Fluid  Mechanics  and Multidisciplinary Design, Springer ISBN 978-3-642-31817-7, Fu. S et al. (Eds.)</div>
#<div id="18">'''Maduta, R. and Jakirli&#x107;, S. (2011):''' An  eddy-resolving  Reynolds  stress transport model for unsteady flow computations. ''4th Symposium  on  Hybrid RANS-LES Methods'', Beijing, China, September&nbsp;28&ndash;30. In "Advances in Hybrid RANS-LES Modelling 4", 2012.  ''Notes  on  Numerical  Fluid  Mechanics  and Multidisciplinary Design'', Springer ISBN&nbsp;978-3-642-31817-7, Fu.&nbsp;S et&nbsp;al.&nbsp;(Eds.)</div>
#<div id="19">'''Mehdizadeh, O.Z, L. Temmerman, B. Tartinville  and  Ch.  Hirsch  (2012):''' Applications of EARSM Turbulence Models  to  Internal  Flows.  Paper No. GT2012-68886, Proceedings of ASME Turbo  Expo  2012,  June 11-15,  2012, Copenhagen, Denmark</div>
#<div id="19">'''Mehdizadeh, O.Z, L. Temmerman, B. Tartinville  and  Ch.  Hirsch  (2012):''' Applications of EARSM Turbulence Models  to  Internal  Flows.  Paper&nbsp;No.&nbsp;GT2012-68886, Proceedings of ASME Turbo  Expo  2012,  June&nbsp;11&ndash;15,  2012, Copenhagen, Denmark</div>
#<div id="20">'''Menter, F. and Egorov, Y. (2010):''' The Scale-adaptive  Simulation  method for unsteady  turbulent  flow  predictions.  Part  1:  theory  and  model description. Flow, Turbulence and Combustion, Vol. 85, pp. 113-138</div>
#<div id="20">'''Menter, F. and Egorov, Y. (2010):''' The Scale-adaptive  Simulation  method for unsteady  turbulent  flow  predictions.  Part  1:  theory  and  model description. ''Flow, Turbulence and Combustion'', Vol.&nbsp;85, pp.&nbsp;113&ndash;138</div>
#<div id="21">'''Nagano, Y.,  Tagawa,  M.  and  Tsuji,  T.  (1993):'''  Effects  of  Adverse Pressure Gradient on mean Flows and Turbulent Statistics  in  a  Boundary Layer. Turbulent Shear Flows 8, Durst et al. (editors),  p. 7,  Springer Verlag</div>
#<div id="21">'''Nagano, Y.,  Tagawa,  M.  and  Tsuji,  T.  (1993):'''  Effects  of  Adverse Pressure Gradient on mean Flows and Turbulent Statistics  in  a  Boundary Layer. ''Turbulent Shear Flows''&nbsp;8, Durst&nbsp;et&nbsp;al. (editors),  p.&nbsp;7,  Springer&nbsp;Verlag</div>
#<div id="22">'''Obi, S., Aoki, K. and Masuda, S.:''' Experimental and  computational  study of turbulent separating flow in an asymmetric plane diffuser.  Proc.  9th Symp. on Turbulent Shear Flows, Kyoto, Japan, August 16-19,  pp. 305.1-305.5, 1993</div>
#<div id="22">'''Obi, S., Aoki, K. and Masuda, S.:''' Experimental and  computational  study of turbulent separating flow in an asymmetric plane diffuser.  Proc.  ''9th Symp. on Turbulent Shear Flows'', Kyoto, Japan, August&nbsp;16&ndash;19,  pp.&nbsp;305.1&ndash;305.5, 1993</div>
#<div id="23">'''Ohlsson, J., Schlatter, P., Fischer P.F. and  Henningson,  D.S.  (2009):''' DNS of three-dimensional  separation  in  turbulent  diffuser  flows.  In Advances in Turbulence XII, Proceedings of  the  12th  EUROMECH  European Turbulence Conference, Marburg. Springer  Proceedings  in  Physics,  Vol. 132, ISBN: 978-3-642-03084-0</div>
#<div id="23">'''Ohlsson, J., Schlatter, P., Fischer P.F. and  Henningson,  D.S.  (2009):''' DNS of three-dimensional  separation  in  turbulent  diffuser  flows.  In ''Advances in Turbulence XII'', Proceedings of  the  12th  EUROMECH  European Turbulence Conference, Marburg. Springer  Proceedings  in  Physics,  Vol.&nbsp;132, ISBN&nbsp;978-3-642-03084-0</div>
#<div id="24">'''Ohlsson, J., Schlatter, P., Fischer P.F. and  Henningson,  D.S.  (2010):''' DNS of separated flow in a three-dimensional diffuser  by  the  spectral-element method. J. Fluid Mech., Vol. 650, pp. 307-318</div>
#<div id="24">'''Ohlsson, J., Schlatter, P., Fischer P.F. and  Henningson,  D.S.  (2010):''' DNS of separated flow in a three-dimensional diffuser  by  the  spectral-element method. ''J.&nbsp;Fluid&nbsp;Mech.'', Vol.&nbsp;650, pp.&nbsp;307&ndash;318</div>
#<div id="25">'''Schneider, H., von Terzi D., Bauer, H.-J. and Rodi, W. (2010):'''  Reliable and accurate prediction of  three-dimensional  separation  in  asymmetric diffusers using large-eddy simulation. ASME J. Fluids. Engineering,  Vol. 132(3), p. 031101-1</div>
#<div id="25">'''Schneider, H., von Terzi D., Bauer, H.-J. and Rodi, W. (2010):'''  Reliable and accurate prediction of  three-dimensional  separation  in  asymmetric diffusers using large-eddy simulation. ''ASME&nbsp;J.&nbsp;Fluids.&nbsp;Engineering'',  Vol.&nbsp;132(3), p.&nbsp;031101-1</div>
#<div id="26">'''Schneider, H., von Terzi D., Bauer, H.-J. and Rodi,  W.  (2011):'''  Impact of secondary vortices on separation dynamics in 3d asymmetric  diffusers. In Proceedings of Direct and Large Eddy Simulation 8  (DLES8),  7-9 July 2010, Eindhoven, The Netherlands</div>
#<div id="26">'''Schneider, H., von Terzi D., Bauer, H.-J. and Rodi,  W.  (2011a):'''  Impact of secondary vortices on separation dynamics in 3d asymmetric  diffusers. In Proceedings of ''Direct and Large Eddy Simulation&nbsp;8'' (DLES8),  7&ndash;9&nbsp;July 2010, Eindhoven, The Netherlands</div>
#<div id="27">'''Schneider, H., von Terzi  D.,  Bauer,  H.-J.  and  Rodi,  W.  (2011):'''  A mechanism  for  control  of  turbulent  separated  flow  in  rectangular diffusers. J. Fluid Mech., Vol. 687, pp. 584-594</div>
#<div id="27">'''Schneider, H., von Terzi  D.,  Bauer,  H.-J.  and  Rodi,  W.  (2011b):'''  A mechanism  for  control  of  turbulent  separated  flow  in  rectangular diffusers. ''J.&nbsp;Fluid&nbsp;Mech.'', Vol.&nbsp;687, pp.&nbsp;584&ndash;594</div>
#<div id="28">'''Spalart, P.R.,  Jou,  W.-H.,  Strelets,  M.  and  Allmaras,  S.  (1997):''' Comments on the feasibility of LES for wings and  on  a  hybrid  RANS/LES approach, 1st AFOSR Int. Conf. on DNS and LES</div>
#<div id="28">'''Spalart, P.R.,  Jou,  W.-H.,  Strelets,  M.  and  Allmaras,  S.  (1997):''' Comments on the feasibility of LES for wings and  on  a  hybrid  RANS/LES approach, ''1st AFOSR Int.&nbsp;Conf. on DNS and LES''</div>
#<div id="29">'''Spalart, P.R. (2009):''' Detached-Eddy Simulation. Annu. Rev. Fluid  Mech., Vol. 41, pp. 181-202</div>
#<div id="29">'''Spalart, P.R. (2009):''' Detached&#8208;Eddy Simulation. ''Annu.&nbsp;Rev.&nbsp;Fluid  Mech.'', Vol.&nbsp;41, pp.&nbsp;181&ndash;202</div>
#<div id="30">'''Steiner, H., Jakirli&#x107;, S., Kadavelil, G., &#352;ari&#x107;,  S.,  Manceau,  R.  and Brenn. G. (2009):''' Report on 13th ERCOFTAC Workshop on Refined  Turbulence Modelling. September 25-26, 2008, Graz University of Technology, ERCOFTAC Bulletin, No. 79, pp. 24-29</div>
#<div id="30">'''Steiner, H., Jakirli&#x107;, S., Kadavelil, G., &#352;ari&#x107;,  S.,  Manceau,  R.  and Brenn. G. (2009):''' Report on 13<sup>th</sup> ERCOFTAC Workshop on Refined  Turbulence Modelling. September&nbsp;25&ndash;26, 2008, Graz University of Technology, ''ERCOFTAC Bulletin'', No.&nbsp;79, pp.&nbsp;24&ndash;29</div>
#<div id="31">'''Stock, H.W., Leicher, S. and Seibert, W. (1988):''' Investigation  of  flow separation in a 3d diffuser using a  coupled  Euler  and  boundary  layer method. Zeitschrift fuer Flugwissenschaften und  Weltraumforschung,  Vol. 12(5-6), pp. 347-357</div>
#<div id="31">'''Stock, H.W., Leicher, S. and Seibert, W. (1988):''' Investigation  of  flow separation in a 3d diffuser using a  coupled  Euler  and  boundary  layer method. ''Zeitschrift fuer Flugwissenschaften und  Weltraumforschung'',  Vol.&nbsp;12(5&ndash;6), pp.&nbsp;347&ndash;357</div>
#<div id="32">'''Xu,  D.,  Leschziner,  M.A.,  Khoo,  B.C.,  Shu,  C.  (1997):'''  Numerical prediction of  separation  and  reattachment  of  turbulent  flow  in  an axisymmetric diffuser. Computers and Fluids, Vol. 26 (4), pp. 417-423</div>
#<div id="32">'''Xu,  D.,  Leschziner,  M.A.,  Khoo,  B.C.,  Shu,  C.  (1997):'''  Numerical prediction of  separation  and  reattachment  of  turbulent  flow  in  an axisymmetric diffuser. ''Computers and Fluids'', Vol.&nbsp;26(4), pp.&nbsp;417&ndash;423</div>
 
 
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{{ACContribs
{{ACContribs
|authors=Suad Jakirlic
|authors=Suad Jakirli&#x107;, Gisa  John-Puthenveettil
|organisation=Technische Universit&auml;t Darmstadt
|organisation=Technische Universit&auml;t Darmstadt
}}
}}

Latest revision as of 14:40, 12 February 2017

Flow in a 3D diffuser

Front Page

Description

Test Case Studies

Evaluation

Best Practice Advice

References

Confined flows

Underlying Flow Regime 4-16

References

  1. Abe, K. and Ohtsuka, T. (2010): An investigation of LES and Hybrid LES/RANS models for predicting 3-D diffuser flow. Int. J. Heat and Fluid Flow , Vol. 31(5), pp. 833–844
  2. Bradshaw, P. and Wong, F.Y.F.: The reattachment and relaxation of a turbulent shear layer. J. Fluid Mech., Vol. 52(1), pp. 113–135, 1972
  3. Breuer, M. (2010): A hybrid LES-URANS approach for non-equilibrium turbulent flows such as 3-D diffuser flows. 8th Int. ERCOFTAC Symp. on Engineering Turbulence Modelling and Measurements (ETMM8), Marseille, France, June 9–11
  4. Buice, C.U. and Eaton, J.K. (1996): Experimental investigation of flow through an asymmetric plane diffuser. CTR Annual Research Briefs, pp. 243–248
  5. Buice, C.U. and Eaton, J.K. (2000): Experimental investigation of flow through an asymmetric plane diffuser. ASME J. Fluids Eng., Vol. 122, pp. 433–435
  6. Cherry, E. M., Iaccarino, G., Elkins, C.J. and Eaton, J.K. (2006): Separated flow in a three-dimensional diffuser: preliminary validation. Center for Turbulence Research, Stanford University, Annual Research Brief 2006, pp. 31–40
  7. Cherry, E.M., Elkins, C.J. and Eaton, J.K. (2008): Geometric sensitivity of three-dimensional separated flows. Int. J. of Heat and Fluid Flow, Vol. 29(3), pp. 803–811
  8. Cherry, E.M., Elkins, C.J. and Eaton, J.K. (2009): Pressure measurements in a three-dimensional separated diffuser. Int. J. of Heat and Fluid Flow, Vol. 30(1), pp. 1–2
  9. Fröhlich, J. and von Terzi, D. (2008): Hybrid LES/RANS methods for the simulation of turbulent flows. Prog. Aerosp. Sci., Vol. 44, pp. 349–377
  10. Grundmann, S., Sayles E. L. and Eaton J. K. (2011): Sensitivity of an asymmetric 3D diffuser to plasma-actuator induced inlet condition perturbations. Experiments in Fluids, Vol. 50(1), pp. 217–231
  11. Grundmann, S., Sayles E. L. and Eaton J. K. (2012): Sensitivity of an asymmetric 3D diffuser to vortex-generator induced inlet condition perturbations. Experiments in Fluids, Vol. 52(1), pp. 11–21
  12. Gullman-Strand, J., Törnblom, O., Lindgren, B., Amberg, G. and Johansson, A.V. (2004): Numerical and experimental study of separated flow in a plane asymmetric diffuser. Int. J. Heat Fluid Flow, Vol. 25(3), pp. 451–460
  13. Hellsten, A. and Rautaheimo, P. (editors), (1999): Proceedings of the 8th ERCOFTAC/IAHR/COST Workshop on Refined Turbulence Modelling, 17–18 June. Helsinki University of Technology
  14. Jakirlić, S., Kadavelil, G., Kornhaas, M., Schäfer, M., Sternel, D.C. and Tropea, C. (2010a): Numerical and Physical Aspects in LES and Hybrid LES/RANS of Turbulent Flow Separation in a 3-D Diffuser. Int. J. Heat and Fluid Flow, Vol. 31(5), pp. 820–832
  15. Jakirlić, S., Kadavelil, G., Sirbubalo, E., von Terzi, D., Breuer, M. and Borello, D. (2010b): 14th ERCOFTAC SIG15 Workshop on Turbulence Modelling: Turbulent Flow Separation in a 3-D Diffuser. "Sapienza" University of Rome, September 18, 2009, ERCOFTAC Bulletin, December Issue, No. 85, pp. 5–13
  16. Jeyapaul, E. and Durbin, P. (2010): Turbulent separation in a three-dimensional diffuser. 8th Int. ERCOFTAC Symp. on Engineering Turbulence Modelling and Measurements (ETMM8), Marseille, France, June 9–11
  17. John-Puthenveettil, G. (2012): Computational modelling of complex flows using eddy-resolving turbulence models accounting for the near-wall turbulence. PhD Thesis, Technische Universitaet Darmstadt
  18. Maduta, R. and Jakirlić, S. (2011): An eddy-resolving Reynolds stress transport model for unsteady flow computations. 4th Symposium on Hybrid RANS-LES Methods, Beijing, China, September 28–30. In "Advances in Hybrid RANS-LES Modelling 4", 2012. Notes on Numerical Fluid Mechanics and Multidisciplinary Design, Springer ISBN 978-3-642-31817-7, Fu. S et al. (Eds.)
  19. Mehdizadeh, O.Z, L. Temmerman, B. Tartinville and Ch. Hirsch (2012): Applications of EARSM Turbulence Models to Internal Flows. Paper No. GT2012-68886, Proceedings of ASME Turbo Expo 2012, June 11–15, 2012, Copenhagen, Denmark
  20. Menter, F. and Egorov, Y. (2010): The Scale-adaptive Simulation method for unsteady turbulent flow predictions. Part 1: theory and model description. Flow, Turbulence and Combustion, Vol. 85, pp. 113–138
  21. Nagano, Y., Tagawa, M. and Tsuji, T. (1993): Effects of Adverse Pressure Gradient on mean Flows and Turbulent Statistics in a Boundary Layer. Turbulent Shear Flows 8, Durst et al. (editors), p. 7, Springer Verlag
  22. Obi, S., Aoki, K. and Masuda, S.: Experimental and computational study of turbulent separating flow in an asymmetric plane diffuser. Proc. 9th Symp. on Turbulent Shear Flows, Kyoto, Japan, August 16–19, pp. 305.1–305.5, 1993
  23. Ohlsson, J., Schlatter, P., Fischer P.F. and Henningson, D.S. (2009): DNS of three-dimensional separation in turbulent diffuser flows. In Advances in Turbulence XII, Proceedings of the 12th EUROMECH European Turbulence Conference, Marburg. Springer Proceedings in Physics, Vol. 132, ISBN 978-3-642-03084-0
  24. Ohlsson, J., Schlatter, P., Fischer P.F. and Henningson, D.S. (2010): DNS of separated flow in a three-dimensional diffuser by the spectral-element method. J. Fluid Mech., Vol. 650, pp. 307–318
  25. Schneider, H., von Terzi D., Bauer, H.-J. and Rodi, W. (2010): Reliable and accurate prediction of three-dimensional separation in asymmetric diffusers using large-eddy simulation. ASME J. Fluids. Engineering, Vol. 132(3), p. 031101-1
  26. Schneider, H., von Terzi D., Bauer, H.-J. and Rodi, W. (2011a): Impact of secondary vortices on separation dynamics in 3d asymmetric diffusers. In Proceedings of Direct and Large Eddy Simulation 8 (DLES8), 7–9 July 2010, Eindhoven, The Netherlands
  27. Schneider, H., von Terzi D., Bauer, H.-J. and Rodi, W. (2011b): A mechanism for control of turbulent separated flow in rectangular diffusers. J. Fluid Mech., Vol. 687, pp. 584–594
  28. Spalart, P.R., Jou, W.-H., Strelets, M. and Allmaras, S. (1997): Comments on the feasibility of LES for wings and on a hybrid RANS/LES approach, 1st AFOSR Int. Conf. on DNS and LES
  29. Spalart, P.R. (2009): Detached‐Eddy Simulation. Annu. Rev. Fluid Mech., Vol. 41, pp. 181–202
  30. Steiner, H., Jakirlić, S., Kadavelil, G., Šarić, S., Manceau, R. and Brenn. G. (2009): Report on 13th ERCOFTAC Workshop on Refined Turbulence Modelling. September 25–26, 2008, Graz University of Technology, ERCOFTAC Bulletin, No. 79, pp. 24–29
  31. Stock, H.W., Leicher, S. and Seibert, W. (1988): Investigation of flow separation in a 3d diffuser using a coupled Euler and boundary layer method. Zeitschrift fuer Flugwissenschaften und Weltraumforschung, Vol. 12(5–6), pp. 347–357
  32. Xu, D., Leschziner, M.A., Khoo, B.C., Shu, C. (1997): Numerical prediction of separation and reattachment of turbulent flow in an axisymmetric diffuser. Computers and Fluids, Vol. 26(4), pp. 417–423



Contributed by: Suad Jakirlić, Gisa John-Puthenveettil — Technische Universität Darmstadt

Front Page

Description

Test Case Studies

Evaluation

Best Practice Advice

References


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