Abstract
Despite important efforts of many scientists over the decades, turbulence continues to persist as one of the least understood field of fluid mechanics, and therefore much improvements in fluid flow systems are still expected from a better understanding of this physics.
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References
Brown, G.L. & Roshko, A. 1974 On density effects and large structure in turbulent mixing layers. J. Fluid Mech. 64, 775–816.
Ha-Minh, H., Rubesin, M.W., Vandromme, D.D. & Viegas, J.R., 1985 On the Use of Second Order Closure Modelling for the Prediction of the Turbulence Boundary-Layer/Shock Wave Interaction: Physical and Numerical Aspects. Proceeding of the International Computational Fluid Dynamic Symposium, Tokyo.
Ha-Minh, H. & Vandromme, D.D., 1986, Modelling of Compressible Turbulent Flows: Present Possibilities and Perspectives. IUTAM Symposium, Ed: J. Déléry,13–16, Sringer Verlag.
Ha-Minh, H. & Vandromme, D.D. 1989, Compressibility effects on turbulence in high speed flows, Summer workshop on Theory and Modelling of Turbulent Flows, Ecole Centrale de Lyon, July 3–13.
Hussain, A.K.M.F. 1983 Coherent Structures-Reality and Myth. Phys. Fluids, 26 (10), 2816–2850.
Mac Cormack, R.W. 1981 A Numerical Method for Solving the Equa- tions of Compressible Viscous Flow. A.I.A.A. Paper No 81–0110.
Papamoschou, D & Roshko, A 1988 The Compressible Turbulent Shear Layer: An Experimental Study. J. Fluid Mech. 197, 453–477.
Reynolds, W.C. & Hussain, A.K.M.F. 1971 The Mechanics of an Organized Wave in Turbulent Shear Flow. Part 3: Theoretical models and Comparaison with Experiments, J. Fluid Mech. 54, 263–288.
Vandromme, D.D. & Ha-Minh, H. 1985 Introduction to the Modelling of Turbulence: Turbulence Modelling for the Compressible Flows. S. C.1985–1, Von Karman Institute for Fluid Dynamics, June 1985.
Vandromme, D.D. & Ha-Minh, H. 1986 About the Coupling of Turbulence Closure Models with Averaged Navier-Stokes Equations. Journal of Computational Physics, 65, No 2, 386–409, August.
Vandromme D., 1989, Turbulence modelling and implementation in Navier-Stokes solvers, Von Karman Institute Lecture Serie, 1989–8, “Numerical methods for flows in turbomachines”, Rhode Saint Genes e, Belgium.
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© 1991 Springer Science+Business Media Dordrecht
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Vandromme, D., Haminh, H. (1991). The compressible mixing layer. In: Metais, O., Lesieur, M. (eds) Turbulence and Coherent Structures. Fluid Mechanics and Its Applications, vol 2. Springer, Dordrecht. https://doi.org/10.1007/978-94-015-7904-9_30
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DOI: https://doi.org/10.1007/978-94-015-7904-9_30
Publisher Name: Springer, Dordrecht
Print ISBN: 978-90-481-4063-3
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