共 20 条
[11]
Emmons H.W., The Laminar-Turbulent Transition in a Boundary Layer—Part 1, Journal of the Aeronautical Sciences, 18, pp. 490-498, (1951)
[12]
Guenette G.R., Epstein A.H., Norton R.J.G., Yuzhang C., Time Resolved Measurements of a Turbine Rotor Stationary Tip Casing Pressure and Heat Transfer Field, AIAA Paper No, pp. 85-1220, (1985)
[13]
Hodson H.P., Boundary Layer and Loss Measurements on the Rotor of an Axial-Flow Turbine, ASME, Journal of Engineering for Gas Turbines and Power, 106, pp. 391-399, (1984)
[14]
Lagraff J.E., Ashworth D.A., Schultz D.L., Measurement and Modeling of the Gas Turbine Blade Transition Process as Disturbed by Wakes, ASME Paper No. 88-GT-232, (1988)
[15]
Pfeil H., Herbst R., Transition Procedure of Instationary Boundary Layers, ASME Paper No. 79-GT-128, (1979)
[16]
Pfeil H., Herbst R., Schroder T., Investigation of the Laminar-Turbulent Transition of Boundary Layers Disturbed by Wakes, ASME, Journal of Engineering for Power, 105, pp. 130-137, (1983)
[17]
Sharma O., Momentum and Thermal Boundary Layer Development on Turbine Airfoil Suction Surfaces, AIAA Paper No, pp. 87-1918, (1987)
[18]
Taulbee D.B., Tran L., Dunn M.G., Stagnation Point and Surface Heat Transfer for a Turbine Stage: Prediction and Comparison With Data, ASME Paper No. 88-GT-30, (1988)
[19]
Van Dresar N.T., Mayle R.E., A Quasi-Steady Approach of Wake Effects on Leading Edge Transfer Rates, Heat Transfer in Gas Turbine Engines, 87, pp. 1-10, (1987)
[20]
Wittig S., Schulz A., Dullenkopf K., Fairbank J., Effects of Free-Stream Turbulence and Wake Characteristics on the Heat Transfer Along a Cooled Gas Turbine Blade, ASME Paper No. 88-GT-179, (1988)