×

Experiments and localized disturbances in a flat plate boundary layer. I: The receptivity and evolution of a localized free stream disturbance. II: Interaction between localized disturbances and TS-waves. (English) Zbl 0925.76005


MSC:

76-05 Experimental work for problems pertaining to fluid mechanics
76E05 Parallel shear flows in hydrodynamic stability
76D10 Boundary-layer theory, separation and reattachment, higher-order effects
PDFBibTeX XMLCite
Full Text: DOI

References:

[1] Alfredsson, P. H.; Bakchinov, A. A.; Kozlov, V. V.; Matsubara, M., Laminar-Turbulent transition structures at a high level of a free stream turbulence, (Duck, P. W.; Hall, P., IUTAM Symposium on Nonlinear Instability and Transition in Three-Dimensional Boundary Layers (1995), Kluwer), 423-436
[2] Alfredsson, P. H.; Matsubara, M., Streaky structures in transition, (Henkes, R. A.W. M.; van Ingen, J. L., Proc. Transitional Boundary Layers in Aeronautics (1996), Elsevier Science Publishers), 373-386
[3] Amini, J.; Lespinard, G., Experimental study of an “incipient spot” in a transitional boundary layer, Phys. Fluids, 25, 10, 1743-1750 (1982)
[4] Bakchinov, A. A.; Westin, K. J.A.; Kozlov, V. V.; Alfredsson, P. H., On the receptivity of a flat plate boundary layer to localized free stream disturbances, (Kobayashi, R., Laminar-Turbulent Transition (1995), Springer-Verlag), 341-348
[5] Bakchinov, A. A.; Grek, G. R.; Katasonov, M. M.; Kozlov, V. V., Experimental study of localized disturbances and their development in a flat plate boundary layer, (Preprint No. 1-97 (1997), ITAM, Russian Academy of Sciences: ITAM, Russian Academy of Sciences Novosibirsk, Russia), (in Russian)
[6] Bakchinov, A. A.; Westin, K. J.A.; Kozlov, V. V.; Alfredsson, P. H., Experiments on localized disturbances in a flat plate boundary layer. Part 2. Interaction between localized disturbances and TS-waves, Eur. J. Mech., B/Fluids, 17, 6, 847-873 (1998) · Zbl 0925.76005
[7] Berlin, S.; Henningson, D. S., A study of boundary layer receptivity to disturbances in the free stream, (Henningson, D. S., Bypass Transition - Proceedings from a Mini - Workshop. Bypass Transition - Proceedings from a Mini - Workshop, Technical Report 1994, 14 (1994), TRITA-MEK: TRITA-MEK Stockholm), 29-41
[8] Bertolotti, F. P., Response of the Blasius boundary layer to free-stream vorticity, Phys. Fluids, 9, 8, 2286-2299 (1997)
[9] Bertolotti, F. P.; Kendall, J. M., Response of the Blasius boundary layer to controlled free-stream vortices of axial form, AIAA Paper 97-2018 (1997)
[10] Boiko, A. V.; Westin, K. J.A.; Klingmann, B. G.B.; Kozlov, V. V.; Alfredsson, P. H., Experiments in a boundary layer subjected to free stream turbulence. Part 2. The role of TS-waves in the transition process, J. Fluid Mech., 281, 219-245 (1994)
[11] Breuer, K. S.; Haritonidis, J. H., The evolution of a localized disturbance in a laminar boundary layer. Part I: Weak disturbances, J. Fluid Mech., 220, 569-594 (1990)
[12] Butler, K. M.; Farrell, B. F., Three-dimensional optimal perturbations in viscous shear flow, Phys. Fluids A, 4, 1637-1650 (1992)
[13] Cohen, J.; Breuer, K. S.; Haritonids, J. H., On the evolution of a wave packet in a laminar boundary layer, J. Fluid Mech., 225, 575-606 (1991)
[14] Dovgal, A. V.; Kozlov, V. V.; Levchenko, V. Y., Experimental investigation into the reaction of a boundary layer to external periodic disturbances, Fluid Dyn., 15, 4, 602-606 (1981), in Russian, English transl.
[15] Gaster, M.; Grant, I., An experimental investigation of the formation and development of a wave packet in a laminar boundary layer, (Proc. Roy. Soc. Lond. Ser. A, 347 (1975)), 253-269
[16] Goldstein, M. E.; Leib, S. J.; Cowley, S. J., Distortion of a flat-plate boundary layer by free-stream vorticity normal to the plate, J. Fluid Mech., 237, 231-260 (1992) · Zbl 0747.76042
[17] Grek, H. R.; Dey, J.; Kozlov, V. V.; Ramazanov, M. P.; Tuchto, O. N., Experimental analysis of the process of the formation of turbulence in the boundary layer at higher degree of turbulence of windstream, (Technical Report 91-FM-2 (1991), Indian Inst. Science: Indian Inst. Science Bangalore, 560012, India)
[18] Grek, H. R.; Kozlov, V. V.; Ramazanov, M. P., Three types of disturbances from the point source in the boundary layer, (Kozlov, V. V., Laminar-Turbulent Transition (1985), Springer-Verlag), 267-272
[19] Grek, H. R.; Kozlov, V. V.; Ramazanov, M. P., Laminar-turbulent transition at a high free stream turbulence level, Siberian Phys.-Tech. J., 6, 106-138 (1991), (in Russian)
[20] Gulyaev, A. N.; Kozlov, V. E.; Kuznetsov, V. R.; Mineev, B. I.; Sekundov, A. N., Interaction of a laminar boundary layer with external turbulence. Interaction of a laminar boundary layer with external turbulence, Fluid Dyn., 24, 5, 700-710 (1990), in Russian, English transl.
[21] Henningson, D. S., Bypass transition and linear growth mechanisms, (Benzi, R., Advances in Turbulence V (1995), Kluwer), 190-204
[22] Henningson, D. S.; Alfredsson, P. H., The wave structure of turbulent spots in plane Poiseuille flow, J. Fluid Mech., 178, 405-421 (1987)
[23] Herbert, T.; Lin, N., Studies of boundary-layer receptivity with Parabolized Stability Equations, AIAA Paper 93-3053 (1993)
[24] Kachanov, Y. S.; Kozlov, V. V.; Levchenko, V. Y., Occurence of Tollmien-Schlichting waves in the boundary layer under the effect of external perturbations. Occurence of Tollmien-Schlichting waves in the boundary layer under the effect of external perturbations, Fluid Dyn., 13, 4, 704-711 (1979), in Russian, English transl.
[25] Kendall, J. M., Experimental study of disturbances produced in a pre-transitional laminar boundary layer by weak freestream turbulence, AIAA Paper 85-1695 (1985)
[26] Kendall, J. M., Boundary layer receptivity to freestream turbulence, AIAA Paper 90-1504 (1990)
[27] Kendall, J. M., Studies on laminar boundary-layer receptivity to freestream turbulence near a leading edge, (Reda, D. C.; Reed, H. L.; Kobayashi, R., Boundary Layer Stability and Transition to Turbulence, volume 114 (1991)), 23-30
[28] Kendall, J. M., Boundary layer receptivity to weak freestream turbulence, (Notes on figures presented at End-Stage Transition Workshop. Notes on figures presented at End-Stage Transition Workshop, August 15, 1993 (1993))
[29] Klebanoff, P. S., Effect of free-stream turbulence on a laminar boundary layer, Bull. Am. Phys. Soc., 10, 1323 (1971)
[30] Klingmann, B. G.B.; Boiko, A. V.; Westin, K. J.A.; Kozlov, V. V.; Alfredsson, P. H., Experiments on the stability of Tollmien-Schlichting waves, Eur. J. Mech., B/Fluids, 12, 493-514 (1993)
[31] Kozlov, V. V.; Ryzhov, O. S., Receptivity of boundary layers: asymptotic theory and experiment, (Proc. Roy. Soc. Lond. Ser. A, 429 (1990)), 341-373
[32] Landahl, M. T., Dynamics of boundary layer turbulence and the mechanism of drag reduction, Phys. Fluids, 20, 10, 55-63 (1977), Part II
[33] Landahl, M. T., A note on an algebraic instability of inviscid parallel shear flows, J. Fluid Mech., 98, 243-251 (1980) · Zbl 0428.76049
[34] Luchini, P., Reynolds-number-independent instability of the boundary layer over a flat surface, J. Fluid Mech., 327, 101-115 (1996) · Zbl 0883.76034
[35] Morkovin, M. V.; Reshotko, E., Dialogue on progress and issues in stability and transition research, (Arnal, D.; Michel, R., Laminar-Turbulent Transition (1990), Springer-Verlag), 3-29
[36] Nishioka, M.; Morkovin, M. V., Boundary-layer receptivity to unsteady pressure gradients: experiments and overview, J. Fluid Mech., 171, 219-261 (1986)
[37] Watmuff, J. H., Detrimental Effects of almost immeasurably small free-stream nonuniformities generated by the wind tunnel screens, AIAA Paper 97-0228 (1997)
[38] Westin, K. J.A.; Boiko, A. V.; Klingmann, B. G.B.; Kozlov, V. V.; Alfredsson, P. H., Experiments in a boundary layer subjected to free-stream turbulence. Part 1. Boundary layer structure and receptivity, J. Fluid Mech., 281, 193-218 (1994)
[39] Wygnanski, I.; Sokolov, M.; Friedman, D., On transition in a pipe. Part 2. The equilibrium puff, J. Fluid Mech., 69, 283-304 (1975)
This reference list is based on information provided by the publisher or from digital mathematics libraries. Its items are heuristically matched to zbMATH identifiers and may contain data conversion errors. In some cases that data have been complemented/enhanced by data from zbMATH Open. This attempts to reflect the references listed in the original paper as accurately as possible without claiming completeness or a perfect matching.