Abstract
The paper examines the capability for numerical simulation of three-dimensional shock wave turbulent boundary layer interactions using the Reynolds-averaged Navier-Stokes equations. Two configurations are considered, namely, the single and double fin interactions. Numerical simulations were performed by an international group of researchers as part of an AGARD-sponsored study of capabilities for simulation of high speed flight. A broad range of turbulence models were employed including zero-, one-, two-equation and full Reynolds stress equation models. The paper presents a comparison of the numerical simulations with experiment and summarizes the results.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Alexopoulos G., and Hassan, H. (1997) Computation of Crossing Shock Flows Using the k-enstrophy Turbulence Model, AIAA Paper No. 97–0206.
Alvi F., and Settles, G. (1991), Physical Model of the Swept Shock / Boundary Layer Interaction Flowfield, AIAA Journal, Vol. 30, pp. 2252–2258.
Baldwin B., and Lomax, H. (1978), Thin Layer Approximation and Algebraic Model Separated Flows, AIAA Paper 78–257.
Becht C., and Knight, D. (1995), A Simple Low Reynolds Number Modification for the Compressible k — ∊ Model. Part I. Boundary Layer Flows, AIAA Paper 95–2218.
Chien, K.-Y. (1982), Predictions of Channel and Boundary Layer Flows with a Low Reynolds Number Turbulence Model, AIAA Journal, Vol. 20, pp. 33–38.
Courant R., and Friedrichs, K. (1948), Supersonic Flow and Shock Waves, Springer-Verlag, New York.
Degrez G., ed. (1993) AGARD Special Course on Shock-Wave/Turbulent Boundary-Layer Interactions in Supersonic and Hypersonic Flow, AGARD Report 792, Advisory Group for Aerospace Research and Development.
Delery J., and Marvin, J. (1986), Shock-Wave Boundary-Layer Interactions, AGARDograph No. 280.
Delery J., and Panaras, A. (1996), Shock-Wave Boundary-Layer Interactions in Hih Mach Number Flows, AGARD AR-319, Advisory Group for Aerospace Research and Development, Vol. 1.
Edwards J., and Chandra, S. (1996), Comparison of Eddy Viscosity-Transport Turbulence Models for Three-Dimensional, Shock-Separated Flowfields, AIAA Journal, Vol. 34, pp. 756–763.
Gaitonde D., Shang J., Visbal, M. (1995), Structure of a Double-Fin Interaction at High Speed, AIAA Journal Vol. 33, pp. 193–200.
Garrison T., Settles G., Narayanswami N., and Knight, D. (1993), Structure of Crossing-Shock Wave/Turbulent Boundary Layer Interactions, AIAA Journal, Vol. 31, pp. 2204–2211.
Gnedin, M. (1996), Numerical Simulation of 3-D Shock Wave Turbulent Boundary Layer Interaction Using a Two Equation Model of Turbulence, PhD Thesis, Dept of Mech & Aero Engr, Rutgers University.
Gnedin M., Knight D., Zheltovodov A., Maksimov A., Shevchenko A., and Vorontsov, S. (1996), 3-D Crossing Shock Wave Turbulent Boundary Layer Interaction, AIAA Paper No. 96–2001.
Greene, J. E. (1970), Interactions between Shock Waves and Turbulent Boundary Layers, Progress in Aerospace Science, Pergammon Press, Vol. 11, pp. 235–340.
Inger, G. (1985), Theoretical and Experimental Study of Nonadiabatic Transonic Shock Boundary-Layer Interaction, AIAA Journal, Vol. 23, pp. 1476–1482.
Inger, G. (1987), Spanwise Propagation of Upstream Influence in Conical Swept Shock / Boundary Layer Interactions, AIAA Journal, Vol. 25, pp. 287–293.
Jones W., and Launder, B. (1972), The Prediction of Laminarization with a Two-Equation Model of Turbulence, International Journal of Heat and Mass Transfer Vol. 15, pp. 301–304.
Kim K., Lee Y., Alvi F., Settles G., and Horstman, C. (1990), Laser Skin Friction Measurements and CFD Comparison of Weak-to-Strong Swept Shock / Boundary Layer Interactions, AIAA Paper No. 90–0378.
Knight, D. (1993), Numerical Simulation of 3-D Shock Wave Turbulent Boundary Layer Interactions, in AGARD/VKI Special Course on Shock-Wave Boundary-Layer Interactions in Supersonic and Hypersonic Flows, Von Karman Institute for Fluid Dynamics, AGARD R-792, pp. 3-1 to 3-32.
Knight D., Garrison T., Settles G., Zheltovodov A., Maksimov A., Shevchenko A., and Vorontsov, S. (1995), Asymmetric Crossing-Shock Wave / Turbulent Boundary Layer Interaction, AIAA Journal, Vol. 33, pp. 2241–2249.
Knight D., and Degrez, G. (1997), Shock Wave Boundary Layer Interactions in High Mach Number Flows-A Critical Survey of Current CFD Prediction Capabilities, AGARD AR-319, Advisory Group for Aerospace Research and Development, Vol. 2.
Korkegi, R. (1971), Survey of Viscous Interactions Associated with High Mach Number Flight, AIAA Journal, Vol. 9, pp. 771–784.
Narayanswami N., Knight D., Bogdonoff S., and Horstman, C. (1992), Interaction Between Crossing Oblique Shocks and a Turbulent Boundary Layer, AIAA Journal, Vol. 30, pp. 1945–1952.
Panaras, A. (1996) Algebraic Turbulence Modelling for Swept Shock Wave / Turbulent Boundary Layer Interactions, Deutsche Forschungsanstalt für Luft-und Raumfahrt e.V., Report No. IB 223-296 A 22.
Peake, D. and Tobak, M. (1980), Three-Dimensional Interactions and Vortical Flows with Emphasis on High Speed, NASA TM 81169.
Settles G., and Dolling, D. (1986), Swept Shock Wave Boundary Layer Interactions, Tactical Missile Aerodynamics, AIAA, pp. 297–379.
Settles G., and Dolling, D. (1990), Swept Shock / Boundary-Layer Interactions-Tutorial and Update, AIAA Paper 90–0375.
Stewartson, K. (1981), Some Recent Studies in Triple-Deck Theory, in Numerical and Physical Aspects of Aerodynamic Flows, T. Cebeci, ed., Springer-Verlag, pp. 142.
Stollery, J. (1989), AGARD Special Course on Three-Dimensional Supersonic and Hypersonic Flows Including Separation, Advisory Group for Aerospace Research and Development.
Zha G., and Knight, D. (1996), Three-Dimensional Shock / Boundary-Layer Interaction Using Reynolds Stress Equation Turbulence Model, AIAA Journal, Vol. 34, pp.1313–1320.
Zheltovodov A., and Shilein, E. (1986), 3-D Swept Shock Waves / Turbulent Boundary Layer Interaction in Angles Configuration, Institute of Theoretical and Applied Mechanics, Academy of Sciences, Siberian Division, No. 34–86.
Zheltovodov A., Maksimov A., Shevchenko, Vorontsov S., and Knight, D. (1994), Experimental Study and Computational Comparison of Crossing Shock Wave-Turbulent Boundary Layer Interaction, Proceedings of the International Conference on Methods of Aerophysical Research-Part 1, Russian Academy of Sciences, Siberian Division, pp. 221–230.
Zheltovodov, A. (1996), Shock Waves / Turbulent Boundary Layer Interactions-Fundamental Studies and Applications, AIAA Paper No. 96–1977.
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1999 Springer Science+Business Media Dordrecht
About this chapter
Cite this chapter
Knight, D.D. (1999). Simulation of Shock Wave-Turbulent Boundary Layer Interactions Using the Reynolds-Averaged Navier-Stokes Equations. In: Salas, M.D., Hefner, J.N., Sakell, L. (eds) Modeling Complex Turbulent Flows. ICASE/LaRC Interdisciplinary Series in Science and Engineering, vol 7. Springer, Dordrecht. https://doi.org/10.1007/978-94-011-4724-8_16
Download citation
DOI: https://doi.org/10.1007/978-94-011-4724-8_16
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-010-5986-2
Online ISBN: 978-94-011-4724-8
eBook Packages: Springer Book Archive