UFR 3-04 References

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Laminar-turbulent boundary layer transition

Underlying Flow Regime 3-04               © copyright ERCOFTAC 2004


References

Abu-Ghannam B.,J., Shaw (1980): Natural Transition of boundary-layers the effects of turbulence, pressure gradient and flow history, J. Mech. Eng. Sci. Vol. 22, No.5, pp.213-228

Addison J.P., Hodson H.P. (1990):Unsteady transition in an axial-flow turbine: Part 1- Measurements on the Turbine Rotor; ASME J. of Turbomachinery; Vol. 112; pp.206-214; Part 2-Cascade Measurements and Modeling; ASME J. of Turbomachinery; Vol. 112; pp.215-221;

Alfredsson P. H. & Matsubara M., (1996), Streaky structures in transition. In Transitional Boundary Layers in Aeronautics (ed. Henkes & van Ingen), pp. 374{386. Elsevier.

Andersson P., Berggren M, Henningson D. S., (1999), Optimal disturbances and bypass transition in boundary layers. Phys. Fluids 11, 134{150.

Berlin S., Henningson D.S., (1999), A nonlinear mechanism for receptivity of free-stream disturbances, Phys. Fluids, vol. 11, No. 2, pp3749-3760

Butler K. M., Farrell B. F., (1992), Three-dimensional optimal disturbances in viscous shear flow. Phys. Fluids A 4, pp.637-1650.

Chakka P., and Schobeiri M.T. (1999), Modeling unsteady boundary layer transition on a curved plate under periodic unsteady flow conditions: Aerodynamic and heat transfer investigations. Trans. ASME, J. of Turbomachinery, vol. 121, pp. 88-97.

Dawes W.N., (1992), Simulation of Three-Dimensional Viscous Flow in Turbomachinery Geometries Using a Solution-Adaptive Unstructured Mesh Methodology, ASME Journal of Turbomachinery, Vol. 114, pp. 528-537.

Dhawan S., Narashima R., (1958), Some properties of Boundary Layer Flow during Transition from Laminar to Turbulent Motion, J. Fluid mech., Vol.3, pp.418-436

Durbin, P.A., 1996, “On the k-ε Stagnation Point Anomaly”, International Journal of Heat and Fluid Flow, Vol. 17, pp. 89-90.

Elsner W., Vilmin S., Dawes W.N., Hodson H., Savill M., (2001): Modeling of unsteady boundary layer on a blade profile with un NEWT PUIM code; Proc. CFD for Turbomachinery Applications, Gdañsk 2001

Emmons H. W. (1951): The laminar-turbulent Transition in a Boundary Layer-Part I, J. Aero. Sci. Vol. 18, pp. 490-498

Gostelow J.P., Blunden A.R., Walker G.J.(1994), Effect on free-stream turbulence and adverse pressure gradients on boundary layer transition. Trans. ASME, J. of Turbomachinery, vol. 116, pp. 392-404.

Gostelow J.P., Melwani N., Walker G.J. (1996), Effects of streamwise pressure gradient on turbulent spot development; ASME Journal of Turbomachinery; Vol. 118; pp.737-743.

Grek H.R., Kozlov V.V., Ramazanov M.P., (1990) Receptivity and stability of the boundary layer at a high turbulence level, In Laminar-Turbulent Transition (ed. D. Arnal & R. Michel), pp.51-521, Springer

Hadzic I., (1999), Second-moment closure modelling of transitional and unsteady turbulent flows, PhD Thesis, University of Delft

Hedley T.B., Keffer J.F. (1974), Turbulent/non-turbulent decisions in an intermittent flow, J. Fluid Mech., Vol. 64, cz. 4, 625-644,

Hodson H.P., (1985), A blade-to–blade prediction of wake-generated unsteady flow, ASME Jnl. of Engineering for gas turbines and power, vol. 107

Hodson H.P., Addison J.S., Shepherdson C.A., (1992) Models for unsteady wake-induced transition in axial turbomachines, J . Phys. III France, vol. 2, No. 4, pp. 545-574

Howell, RJ, Ramesh, ON, Hodson, HP, Harvey, NW, Schulte, V, (2000), High Lift and Aft Loaded Profiles for Low Pressure Turbines, ASME Jnl of Turbomachinery, Vol 123, No 2, Apr. pp 181-188

Jacobs, R.G., Durbin P.A., (2001), Simulations of bypass transition, J. Fluid Mech. (2001), vol. 428, pp. 185-212.

Jonas P., Mazur O., Uruba V., (2000), On the receptivity of the bypass transition to the length scale of the outer stream turbulence, Eur. J. Mech., B-Fluids, Vol. 19, pp.707-722

Jones W.P., Launder B.E., (1972), The prediction of laminarization with a two-equation model of turbulence, Int. J. Heat and Mass Transfer, 15, pp.301-314

Johnson M. W., (1993), A bypass transition model for boundary layers, 93-GT-90, Presented at the international Gas Turbine and Aeroengine Congress and Exposition, Cincinnati, Ohio.

Johnson M. W., and Dris A.,(2000), The origin of turbulent spots, ASME Journal of Turbomachinery, Vol. 122, pp.88-92

Johnson M.W., Fashifar A., (1994), Staistical properties of turbulent bursts in transitional boundary layers, Int. J. Heat and Fluid Flow, Vol. 15, No. 4.

Kato M., Launder B. E., (1993) The prediction of laminarization with a two-equation model of turbulence, Int. J. Heat and Mass Transfer, Vol. 15, pp. 301-314

Kendall J.M., 1985, Experimental study of disturbances produced in a pre-transitional laminar boundary layer by weak free stream turbulence, AIAA Paper 90-1504

Liu X, Rodi. W., (1991), Experiments on transitional boundary layers with wake-induced unsteadiness, J. Fluid Mech., Vol. 231, pp. 229-256

Mayle R.E. (1991), The role of laminar-turbulent transition in gas turbine engines, Trans. ASME, J. of Turbomachinery vol. 1113, 1991, pp. 509-537.

Menter F..R., (1994)., Two-equation eddy-viscosity turbulence model for engineering applications, AIAA Joutnal, Vol. 32, No. 8, pp. 509-537

Menter F.R., Esch T., Kubacki S. (2002), Transition modelling based on local variables, proceedings of the 5th International Symposium on Engineering Turbulence Modelling and Measurements, Mallorca, Spain, 2002.

Morkovin M.V.: (1969), On the many face of transition Viscous Drag Reduction, C.S. Wells, ed., Plenum Press, New York, pp. 1-31

Narasimha R. (1957): On the distribution of intermittency in the transition region of a boundary layer, J. Aero. Sci. Vol. 24, pp. 711-712

Pfeil H., Herbst R., Schröder T, (1983), Investigation of the laminar-turbulent transition of boundary layer disturbed by wakes. Trans. ASME, J. of Engineering for Power, vol. 105, pp. 130-137.

Pironneau O., Rodi W., Ryhming I.L, Savill A.M, Truomg T.V.,(1992), Proceedings of the 1st ERCOFTAC Workshop on Numerical Simulation of Unsteady Flows, Transition to Turbulence and Combustion

Priddin C. H., (1975), The behaviour of the turbulent boundary layer on curved porous walls, PhD Thesis, Imperial College

Ramesh, O.N., and Hodson, H.P., 1999, “A New Intermittency Model Incorporating the Calming Effect”, 3rd European Conference on Turbomachinery Fluid Dynamics and Thermodynamics, IMechE, London.

Reshotko, E. A. 1976 Boundary layer stability and transition. Ann. Rev. Fluid Mech. Vol. 8, pp. 311-349.

Rodi W., Scheuerer G., (1984), Calculation of laminar-turbulent boundary layer transition on turbine blades, AGARD CP 390 on Heat transfer and cooling in gas turbines, 18-1.

Savill A.M.., (1993), Some recent progress in the turbulence modelling by-pass transition, In: R.M.C. So, C.G. Speziale and B.E. Launder, Eds.: Near Wall Turbulent Flows, Elsevier, pp. 829.

Savill, A. M., (1996), One point closures applied to transition. In Turbulence and Transition (ed. Hallbäck et al.), pp. 233-268 Kluwer.

Savill M., 1998, Evaluation of turbulence models for predicting transition in turbomachinery flows. Report on the ERCOFTAC Transition Modelling Group,

Savill A.M, 2001, By-pass transition using conventional closures and new strategies in modelling by-pass transition. Chapter17, 18 in Closure strategies for turbulent and transitional Flows (Eds. Launder and Sharma) pp. 464-519.

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Schulte, V., and Hodson, H.P., (1998), Prediction Of The Becalmed Region for LP Turbine Profile Design, ASME Journal of Turbomachinery, Vol. 120, No. 4, pp. 839-845.

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Steelant J., Dick E., (1996), Modelling of bypass transition with conditioned Navier-Stokes equations coupled to an intermittency transport equation, International J. f. Nume. Meth. In Fluids, Vol. 23, pp. 193-220

Volino R.J., Simon T.W., (1995), Bypass Transition in Boundary Layer s Including Curvature and Favorable Pressure Gradient Effects, Trans. ASME, Journal of Turbomachinery, vol.117, pp.166-174

Volino R.J., Simon T.W., (1997), Boundary Layer Transition Under High Free-Stream Turbulence and Strong Acceleration Conditions, Trans. ASME, Journal of Heat Transfer.

Vicedo J., Vilmin S., Dawes W.N., Savill A.M., (2003) Intermittency transport modeling of separated flow transition, Proceedings of ASME Turbo Expo 2003, Atlanta, Paper No. GT-2003-38719

Vilmin S., Hodson H. P., Dawes W. N., Savill A. M., (2002) Predicting wake-passing transition in turbomachinery using intermittency-conditioned modelling approach, ERCOFTAC bulletin, Vol. 54, pp.22-29.

Westin K.J.A, Bakchinov A.A, Kozlov V.V, Alfredsson P.H., (1998), Experiments on localized disturbances in a flat plate boundary layer. Part 1. The receptivity and evolution of a localized free stream disturbance, Eur. J. Mech. B/Fluids, No. 6, pp. 823-846.

Wu, X., Jacobs, R. G., Hunt, J. C. R. & Durbin, P. A. (1999), Simulation of boundary layer transition induced by periodically passing wakes. J. Fluid Mech., vol. 398, pp.109-153.

Yang Z., Shih T.H.,(1993), New time scale based k-ε model for near wall turbulence, AIAA J. vol.31 (7) 1993, pp.1191-1198.

Yang, Z. & Voke, P., (1995), Numerical study of bypass transition. Phys. Fluids, vol. 7, pp.2256-2264.

Zhong S., Kittichaikan C., Hodson H. P., Ireland P.T. , (1999), Visualization of turbulent spots and unsteady wake-induced boundary-layer transition with thermochromic liquid crystals, Optics & Laser Technology Vol. 31, pp. 33-39

© copyright ERCOFTAC 2004



Contributors: Andrzej Boguslawski - Technical University of Czestochowa


Front Page

Description

Test Case Studies

Evaluation

Best Practice Advice

References