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===Underlying Flow Regime 4-19===
===Underlying Flow Regime 4-19===
= References =
= References =
*Baldwin. B.S., Lomax. H., “Thin Layer Approximation and Algebraic Model for Separated Turbulent Flows”, AIAA Paper No. 78-257, AIAA 16th Aerospace Sciences Meeting, Huntsville. AL., January (1978)
*Baldwin. B.S., Lomax. H., ''“Thin Layer Approximation and Algebraic Model for Separated Turbulent Flows”'', AIAA Paper No. 78-257, AIAA 16th Aerospace Sciences Meeting, Huntsville. AL., January (1978)


*Batten P., Craft T.J., Leschziner M.A., Loyau H., “Reynolds-stress-transport modelling for compressible aerodynamics applications”, AIAA J., vol. 37, pp. 785–797, (1999)
*Batten P., Craft T.J., Leschziner M.A., Loyau H., ''“Reynolds-stress-transport modelling for compressible aerodynamics applications”'', AIAA J., vol. 37, pp. 785–797, (1999)


*Biedron R. T., Adamson Jr. T. C., “Unsteady Flow in a Supercritical Supersonic Diffuser”, AIAA Journal, Vol. 26(11), pp. 1336-1345, (1988)
*Biedron R. T., Adamson Jr. T. C., ''“Unsteady Flow in a Supercritical Supersonic Diffuser”'', AIAA Journal, Vol. 26(11), pp. 1336-1345, (1988)


*Bogar T.J. “Structure of Self-Excited Oscillations in Transonic Diffuser Flows”, AIAA Journal, vol. 24(1), pp. 54–61, (1985)
*Bogar T.J. ''“Structure of Self-Excited Oscillations in Transonic Diffuser Flows”'', AIAA Journal, vol. 24(1), pp. 54–61, (1985)


*Bogar T.J., Sajben M., Kroutil J.C., “Characteristic frequencies of transonic diffuser flow oscillations”, AIAA Journal, vol. 21(9), pp. 1232–1240, (1982)
*Bogar T.J., Sajben M., Kroutil J.C., ''“Characteristic frequencies of transonic diffuser flow oscillations”'', AIAA Journal, vol. 21(9), pp. 1232–1240, (1982)


*Bush R. H., Power G. D., Towne C. E., “WIND: The production flow solver of the NPARC Alliance”, AIAA 36th Aerospace Sciences Meeting& Exhibit, January 12-15, Reno, NV, (1998)  
*Bush R. H., Power G. D., Towne C. E., ''“WIND: The production flow solver of the NPARC Alliance”'', AIAA 36th Aerospace Sciences Meeting& Exhibit, January 12-15, Reno, NV, (1998)  


*Chien K. Y., "Predictions of Channel and Boundary Layer Flows with a Low-Reynolds-Number Turbulence Model", AIAA Journal, Vol. 20, No. 1, pp. 33-38, (1982)
*Chien K. Y., ''“Predictions of Channel and Boundary Layer Flows with a Low-Reynolds-Number Turbulence Model”'', AIAA Journal, Vol. 20, No. 1, pp. 33-38, (1982)


*Craft T.J., “Developments in a Low-Reynolds-number second-moment closure and its application to separating and reattaching flows”, Int. J. Heat Fluid Flow, vol. 19, pp. 541–548, (1998)
*Craft T.J., ''“Developments in a Low-Reynolds-number second-moment closure and its application to separating and reattaching flows”'', Int. J. Heat Fluid Flow, vol. 19, pp. 541–548, (1998)


*Craft T.J., Launder B.E., “A Reynolds stress closure designed for complex geometries”, Int. J. Heat Fluid Flow 17, 245–254 (1996)
*Craft T.J., Launder B.E., ''“A Reynolds stress closure designed for complex geometries”'', Int. J. Heat Fluid Flow 17, 245–254 (1996)


*Craft T.J., Launder, B.E. Suga, K., “Development and application of a cubic eddy-viscosity model  
*Craft T.J., Launder, B.E. Suga, K., ''“Development and application of a cubic eddy-viscosity model of turbulence”'', Int. J. Heat Fluid Flow, vol. 17, pp. 108–115, (1996)
of turbulence”, Int. J. Heat Fluid Flow, vol. 17, pp. 108–115, (1996)


*Craft T.J., Launder, B.E. Suga, K., “Prediction of turbulent transitional phenomena with nonlinear eddy-viscosity model”, Int. J. Heat Fluid Flow, vol. 18, pp. 15–28, (1997)
*Craft T.J., Launder, B.E. Suga, K., ''“Prediction of turbulent transitional phenomena with nonlinear eddy-viscosity model”'', Int. J. Heat Fluid Flow, vol. 18, pp. 15–28, (1997)


*Daly B.J., Harlow F.H., “Transport equations of turbulence”, Phys. Fluids, vol. 13, pp. 2634–2649, (1970)
*Daly B.J., Harlow F.H., ''“Transport equations of turbulence”'', Phys. Fluids, vol. 13, pp. 2634–2649, (1970)


*Georgiadis N.J., Drummond J.E., Leonard B.P., "Development of an Algebraic Turbulence Model for Analysis of Propulsion Flows", AIAA Paper 92-3861, (1992)
*Georgiadis N.J., Drummond J.E., Leonard B.P., ''"Development of an Algebraic Turbulence Model for Analysis of Propulsion Flows"'', AIAA Paper 92-3861, (1992)


*Georgiadis N. J., Drummond J. E., Leonard B.P, “Evaluation of turbulence models in the PARC code for transonic diffusers”, AIAA 32nd Aerospace sciences meeting and exhibit, Reno, Nevada, January 10-13, (1994)
*Georgiadis N. J., Drummond J. E., Leonard B.P, ''“Evaluation of turbulence models in the PARC code for transonic diffusers”'', AIAA 32nd Aerospace sciences meeting and exhibit, Reno, Nevada, January 10-13, (1994)


*Ghosh S., Sesterhenn J., Friedrich R., “Large-eddy simulation of supersonic turbulent flow in axisymmetric nozzles and diffusers”, International Journal of Heat and Fluid Flow, vol. 29, pp. 579-590, (2008)
*Ghosh S., Sesterhenn J., Friedrich R., ''“Large-eddy simulation of supersonic turbulent flow in axisymmetric nozzles and diffusers”'', International Journal of Heat and Fluid Flow, vol. 29, pp. 579-590, (2008)


*Handa T., Miyazato Y., Masuda M., Matsuo K., “Formation of multiple shocklets in a transonic diffuser flow”, Shock Waves, vol. 11, pp. 423-430, (2002)
*Handa T., Miyazato Y., Masuda M., Matsuo K., ''“Formation of multiple shocklets in a transonic diffuser flow”'', Shock Waves, vol. 11, pp. 423-430, (2002)


*Hanjalic K., Launder B.E., “Fully developed asymmetric flow in a plane channel”, J. Fluid Mech., vol. 51, pp. 301–335, (1972)
*Hanjalic K., Launder B.E., ''“Fully developed asymmetric flow in a plane channel”'', J. Fluid Mech., vol. 51, pp. 301–335, (1972)


*Hosder S., Grossman B., Haftka T. R., Manson W. H., Warson T. L., “ Observations on CFD simulation uncertainties“, 9th AIAA/ISSMO Symposium on Multidisciplinary Analysis and Optimization, September 4-6, Atlanta, GA, AIAA 2002-5531, (2002)
*Hosder S., Grossman B., Haftka T. R., Manson W. H., Warson T. L., ''“ Observations on CFD simulation uncertainties”'', 9th AIAA/ISSMO Symposium on Multidisciplinary Analysis and Optimization, September 4-6, Atlanta, GA, AIAA 2002-5531, (2002)


*Launder B.E., Sharma B.I., “Application of the energy-dissipation model of turbulence to the calculation of flow near spinning disc”, Lett. Heat Mass Transf., vol. 1, pp. 131–137, (1974)
*Launder B.E., Sharma B.I., ''“Application of the energy-dissipation model of turbulence to the calculation of flow near spinning disc”'', Lett. Heat Mass Transf., vol. 1, pp. 131–137, (1974)


*Lien F.S., Leschziner M.A., “A general non-orthogonal collocated finite volume algorithm for turbulent flow at all speeds incorporating second-moment turbulence-transport closure, Part 1: Computational implementation”, Comput. Methods Appl. Mech. Eng., vol. 114, pp. 123–148, (1994)
*Lien F.S., Leschziner M.A., ''“A general non-orthogonal collocated finite volume algorithm for turbulent flow at all speeds incorporating second-moment turbulence-transport closure, Part 1: Computational implementation”'', Comput. Methods Appl. Mech. Eng., vol. 114, pp. 123–148, (1994)


*McGuirk J.J., Page G.J. “Shock capturing using a pressure-correction method”, AIAA Journal 28, pp. 1751–1757, (1990)
*McGuirk J.J., Page G.J. ''“Shock capturing using a pressure-correction method”'', AIAA Journal 28, pp. 1751–1757, (1990)


*Mohler S. R. Jr., “Wind-US Unstructured Flow Solutions for a Transonic Diffuser”, AIAA 43nd Aerospace sciences meeting and exhibit, Reno, Nevada, January 10-13, (2005)
*Mohler S. R. Jr., ''“Wind-US Unstructured Flow Solutions for a Transonic Diffuser”'', AIAA 43nd Aerospace sciences meeting and exhibit, Reno, Nevada, January 10-13, (2005)


*NPARC Alliance CFD Verification and Validation Web site of NASA (http://www.grc.nasa.gov/WWW/wind/valid/archive.html)
*NPARC Alliance CFD Verification and Validation Web site of NASA (http://www.grc.nasa.gov/WWW/wind/valid/archive.html)


*Neel R. E., Godfrey A. G., Slack D. C., “Turbulence model validation in GASP Version 4”, 33rd AIAA Fluid Dynamics Conference and Exhibit, June 23-26. Orlando, FL, (2003)
*Neel R. E., Godfrey A. G., Slack D. C., ''“Turbulence model validation in GASP Version 4”'', 33rd AIAA Fluid Dynamics Conference and Exhibit, June 23-26. Orlando, FL, (2003)


*Olsen M. E., Coakley T. J., “The Lag Model, a Turbulence Model for Non-equilibrium Flows”, AIAA Paper 2001-2564, (2001)
*Olsen M. E., Coakley T. J., ''“The Lag Model, a Turbulence Model for Non-equilibrium Flows”'', AIAA Paper 2001-2564, (2001)


*Park B. H., Lee J. H., Yoon W., “Studies on the starting transient of a straight cylindrical supersonic exhaust diffuser: Effects of diffuser length and pre-evacuation state”, International Journal of Heat and Fluid Flow, vol. 29, pp. 1369-1379, (2008)
*Park B. H., Lee J. H., Yoon W., ''“Studies on the starting transient of a straight cylindrical supersonic exhaust diffuser: Effects of diffuser length and pre-evacuation state”'', International Journal of Heat and Fluid Flow, vol. 29, pp. 1369-1379, (2008)


*Sajben M., Bogar T. J., Kroutil C. J., “Forced Oscillation Experiments in Supercritical Diffuser Flows”, AIAA Journal, vol. 22(4), pp. 465-474, (1984)
*Sajben M., Bogar T. J., Kroutil C. J., ''“Forced Oscillation Experiments in Supercritical Diffuser Flows”'', AIAA Journal, vol. 22(4), pp. 465-474, (1984)


*Salmon J. T., Bogar T. J., Sajben M., “Laser Doppler Velocimeter Measurements in Unsteady, Separated, Transonic Diffuser Flows”, AIAA Journal, Vol. 21(12), pp. 1690-1697, (1982)
*Salmon J. T., Bogar T. J., Sajben M., ''“Laser Doppler Velocimeter Measurements in Unsteady, Separated, Transonic Diffuser Flows”'', AIAA Journal, Vol. 21(12), pp. 1690-1697, (1982)


*Sarkar S., Erlebacher G., Hussani M.Y., Kreiss, H.O., “The Analysis and Modeling of Dilatational Terms in Compressible Turbulence”, ICASE Report (1989)
*Sarkar S., Erlebacher G., Hussani M.Y., Kreiss, H.O., ''“The Analysis and Modeling of Dilatational Terms in Compressible Turbulence”'', ICASE Report (1989)


*So R.M.C., Gatski T.B., Sommer T.P., “Morkovin hypothesis and the modeling of wall-bounded compressible turbulent flows”, AIAA Journal, Vol. 36, pp. 1583–1592, (1998)
*So R.M.C., Gatski T.B., Sommer T.P., ''“Morkovin hypothesis and the modeling of wall-bounded compressible turbulent flows”'', AIAA Journal, Vol. 36, pp. 1583–1592, (1998)


*Speziale C. G., Ridha A., Anderson E. C., "A Critical Evaluation of Two-Equation Turbulence Models for Near Wall Turbulence", NASA CR - 182068, (1990)
*Speziale C. G., Ridha A., Anderson E. C., ''“A Critical Evaluation of Two-Equation Turbulence Models for Near Wall Turbulence”'', NASA CR - 182068, (1990)


*Spalart P. R., Allmaras S. R., “A One-Equation Turbulence Mo del for Aero dynamic Flows”, AIAA-92-0439, January (1992)
*Spalart P. R., Allmaras S. R., ''“A One-Equation Turbulence Model for Aerodynamic Flows”'', AIAA-92-0439, January (1992)


*Thomas P. D., “Numerical method for predicting flow characteristics and performance of non-axisymmetric nozzles”, Part 2 Applications. NASA Contractor Report 3264, (1980)
*Thomas P. D., ''“Numerical method for predicting flow characteristics and performance of non-axisymmetric nozzles”'', Part 2 Applications. NASA Contractor Report 3264, (1980)


*Vlahostergios Z., Yakinthos K., “Modelling the Flow in a Transonic Diffuser with One Reynolds-Stress and Two Eddy-Viscosity Models”, Flow Turbulence and Comb., Vol. 94(3), pp. 619-642, (2015)
*Vlahostergios Z., Yakinthos K., ''“Modelling the Flow in a Transonic Diffuser with One Reynolds-Stress and Two Eddy-Viscosity Models”'', Flow Turbulence and Comb., Vol. 94(3), pp. 619-642, (2015)


*Xiao Q., Tsai H., M., “Computation of transonic diffuser flows by a lagged k-ω turbulence model”, Journal of propulsion and power, vol. 19, pp. 473 - 483, (2003)
*Xiao Q., Tsai H., M., ''“Computation of transonic diffuser flows by a lagged k-ω turbulence model”'', Journal of propulsion and power, vol. 19, pp. 473 - 483, (2003)


*Yaga M., Uechi Y., Ozono H., Ishikawa M., Teruya I., “Experimental Study of the Response of Transonic Diffuser Flow to a Piezoceramic Actuator at Diffuser Throat”, Open journal of Fluid Dynamics, Vol.3, pp.14-21, (2013)
*Yaga M., Uechi Y., Ozono H., Ishikawa M., Teruya I., ''“Experimental Study of the Response of Transonic Diffuser Flow to a Piezoceramic Actuator at Diffuser Throat”'', Open journal of Fluid Dynamics, Vol.3, pp.14-21, (2013)


*Zha G., Hu Z., “Calculation of transonic internal flows using an efficient high resolution upwind scheme”, AIAA Paper 2044-1097, (2004)
*Zha G., Hu Z., ''“Calculation of transonic internal flows using an efficient high resolution upwind scheme”'', AIAA Paper 2044-1097, (2004)


*Zhu J., “A low diffusive and oscillation free convection scheme”, Commun. Appl. Numer. Methods, vol. 7, pp. 225–232, (1991)
*Zhu J., ''“A low diffusive and oscillation free convection scheme”'', Commun. Appl. Numer. Methods, vol. 7, pp. 225–232, (1991)
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{{ACContribs
{{ACContribs
|authors=Z. Vlahostergios, K. Yakinthos
|authors=Z. Vlahostergios, K. Yakinthos
|organisation=Aristotle University of Thessaloniki, Greece
|organisation=Dept. of Mechanical Engineering, Aristotle University of Thessaloniki, Greece
}}
}}
{{UFRHeader
{{UFRHeader

Latest revision as of 14:48, 12 February 2017

Converging-diverging transonic diffuser

Front Page

Description

Test Case Studies

Evaluation

Best Practice Advice

References

Confined flows

Underlying Flow Regime 4-19

References

  • Baldwin. B.S., Lomax. H., “Thin Layer Approximation and Algebraic Model for Separated Turbulent Flows”, AIAA Paper No. 78-257, AIAA 16th Aerospace Sciences Meeting, Huntsville. AL., January (1978)
  • Batten P., Craft T.J., Leschziner M.A., Loyau H., “Reynolds-stress-transport modelling for compressible aerodynamics applications”, AIAA J., vol. 37, pp. 785–797, (1999)
  • Biedron R. T., Adamson Jr. T. C., “Unsteady Flow in a Supercritical Supersonic Diffuser”, AIAA Journal, Vol. 26(11), pp. 1336-1345, (1988)
  • Bogar T.J. “Structure of Self-Excited Oscillations in Transonic Diffuser Flows”, AIAA Journal, vol. 24(1), pp. 54–61, (1985)
  • Bogar T.J., Sajben M., Kroutil J.C., “Characteristic frequencies of transonic diffuser flow oscillations”, AIAA Journal, vol. 21(9), pp. 1232–1240, (1982)
  • Bush R. H., Power G. D., Towne C. E., “WIND: The production flow solver of the NPARC Alliance”, AIAA 36th Aerospace Sciences Meeting& Exhibit, January 12-15, Reno, NV, (1998)
  • Chien K. Y., “Predictions of Channel and Boundary Layer Flows with a Low-Reynolds-Number Turbulence Model”, AIAA Journal, Vol. 20, No. 1, pp. 33-38, (1982)
  • Craft T.J., “Developments in a Low-Reynolds-number second-moment closure and its application to separating and reattaching flows”, Int. J. Heat Fluid Flow, vol. 19, pp. 541–548, (1998)
  • Craft T.J., Launder B.E., “A Reynolds stress closure designed for complex geometries”, Int. J. Heat Fluid Flow 17, 245–254 (1996)
  • Craft T.J., Launder, B.E. Suga, K., “Development and application of a cubic eddy-viscosity model of turbulence”, Int. J. Heat Fluid Flow, vol. 17, pp. 108–115, (1996)
  • Craft T.J., Launder, B.E. Suga, K., “Prediction of turbulent transitional phenomena with nonlinear eddy-viscosity model”, Int. J. Heat Fluid Flow, vol. 18, pp. 15–28, (1997)
  • Daly B.J., Harlow F.H., “Transport equations of turbulence”, Phys. Fluids, vol. 13, pp. 2634–2649, (1970)
  • Georgiadis N.J., Drummond J.E., Leonard B.P., "Development of an Algebraic Turbulence Model for Analysis of Propulsion Flows", AIAA Paper 92-3861, (1992)
  • Georgiadis N. J., Drummond J. E., Leonard B.P, “Evaluation of turbulence models in the PARC code for transonic diffusers”, AIAA 32nd Aerospace sciences meeting and exhibit, Reno, Nevada, January 10-13, (1994)
  • Ghosh S., Sesterhenn J., Friedrich R., “Large-eddy simulation of supersonic turbulent flow in axisymmetric nozzles and diffusers”, International Journal of Heat and Fluid Flow, vol. 29, pp. 579-590, (2008)
  • Handa T., Miyazato Y., Masuda M., Matsuo K., “Formation of multiple shocklets in a transonic diffuser flow”, Shock Waves, vol. 11, pp. 423-430, (2002)
  • Hanjalic K., Launder B.E., “Fully developed asymmetric flow in a plane channel”, J. Fluid Mech., vol. 51, pp. 301–335, (1972)
  • Hosder S., Grossman B., Haftka T. R., Manson W. H., Warson T. L., “ Observations on CFD simulation uncertainties”, 9th AIAA/ISSMO Symposium on Multidisciplinary Analysis and Optimization, September 4-6, Atlanta, GA, AIAA 2002-5531, (2002)
  • Launder B.E., Sharma B.I., “Application of the energy-dissipation model of turbulence to the calculation of flow near spinning disc”, Lett. Heat Mass Transf., vol. 1, pp. 131–137, (1974)
  • Lien F.S., Leschziner M.A., “A general non-orthogonal collocated finite volume algorithm for turbulent flow at all speeds incorporating second-moment turbulence-transport closure, Part 1: Computational implementation”, Comput. Methods Appl. Mech. Eng., vol. 114, pp. 123–148, (1994)
  • McGuirk J.J., Page G.J. “Shock capturing using a pressure-correction method”, AIAA Journal 28, pp. 1751–1757, (1990)
  • Mohler S. R. Jr., “Wind-US Unstructured Flow Solutions for a Transonic Diffuser”, AIAA 43nd Aerospace sciences meeting and exhibit, Reno, Nevada, January 10-13, (2005)
  • Neel R. E., Godfrey A. G., Slack D. C., “Turbulence model validation in GASP Version 4”, 33rd AIAA Fluid Dynamics Conference and Exhibit, June 23-26. Orlando, FL, (2003)
  • Olsen M. E., Coakley T. J., “The Lag Model, a Turbulence Model for Non-equilibrium Flows”, AIAA Paper 2001-2564, (2001)
  • Park B. H., Lee J. H., Yoon W., “Studies on the starting transient of a straight cylindrical supersonic exhaust diffuser: Effects of diffuser length and pre-evacuation state”, International Journal of Heat and Fluid Flow, vol. 29, pp. 1369-1379, (2008)
  • Sajben M., Bogar T. J., Kroutil C. J., “Forced Oscillation Experiments in Supercritical Diffuser Flows”, AIAA Journal, vol. 22(4), pp. 465-474, (1984)
  • Salmon J. T., Bogar T. J., Sajben M., “Laser Doppler Velocimeter Measurements in Unsteady, Separated, Transonic Diffuser Flows”, AIAA Journal, Vol. 21(12), pp. 1690-1697, (1982)
  • Sarkar S., Erlebacher G., Hussani M.Y., Kreiss, H.O., “The Analysis and Modeling of Dilatational Terms in Compressible Turbulence”, ICASE Report (1989)
  • So R.M.C., Gatski T.B., Sommer T.P., “Morkovin hypothesis and the modeling of wall-bounded compressible turbulent flows”, AIAA Journal, Vol. 36, pp. 1583–1592, (1998)
  • Speziale C. G., Ridha A., Anderson E. C., “A Critical Evaluation of Two-Equation Turbulence Models for Near Wall Turbulence”, NASA CR - 182068, (1990)
  • Spalart P. R., Allmaras S. R., “A One-Equation Turbulence Model for Aerodynamic Flows”, AIAA-92-0439, January (1992)
  • Thomas P. D., “Numerical method for predicting flow characteristics and performance of non-axisymmetric nozzles”, Part 2 Applications. NASA Contractor Report 3264, (1980)
  • Vlahostergios Z., Yakinthos K., “Modelling the Flow in a Transonic Diffuser with One Reynolds-Stress and Two Eddy-Viscosity Models”, Flow Turbulence and Comb., Vol. 94(3), pp. 619-642, (2015)
  • Xiao Q., Tsai H., M., “Computation of transonic diffuser flows by a lagged k-ω turbulence model”, Journal of propulsion and power, vol. 19, pp. 473 - 483, (2003)
  • Yaga M., Uechi Y., Ozono H., Ishikawa M., Teruya I., “Experimental Study of the Response of Transonic Diffuser Flow to a Piezoceramic Actuator at Diffuser Throat”, Open journal of Fluid Dynamics, Vol.3, pp.14-21, (2013)
  • Zha G., Hu Z., “Calculation of transonic internal flows using an efficient high resolution upwind scheme”, AIAA Paper 2044-1097, (2004)
  • Zhu J., “A low diffusive and oscillation free convection scheme”, Commun. Appl. Numer. Methods, vol. 7, pp. 225–232, (1991)



Contributed by: Z. Vlahostergios, K. Yakinthos — Dept. of Mechanical Engineering, Aristotle University of Thessaloniki, Greece

Front Page

Description

Test Case Studies

Evaluation

Best Practice Advice

References


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