An experimental research program was conducted to determine the influence of free-stream turbulence on zero pressure gradient, fully turbulent boundary layer flow. Connective heat transfer coefficients and boundary layer mean velocity and temperature profile data were obtained for a constant free-stream velocity of 30 m/s and free-stream turbulence intensities ranging from approximately 1/4 to 7 percent. Free-stream multicomponent turbulence intensity, longitudinal integral scale, and spectral distributions were obtained for the full range of turbulence levels. The test results with 1/4 percent free-stream turbulence indicate that these data were in excellent agreement with classic two-dimensional, low free-stream turbulence, turbulent boundary layer correlations. For fully turbulent boundary layer flow, both the skin friction and heat transfer were found to be substantially increased (up to ∼ 20 percent) for the higher levels of free-stream turbulence. Detailed results of the experimental study are presented in the present paper (Part I). A comprehensive analysis is provided in a companion paper (Part II).
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Influence of Free-Stream Turbulence on Turbulent Boundary Layer Heat Transfer and Mean Profile Development, Part I—Experimental Data
M. F. Blair
M. F. Blair
Gas Turbine Technology Group, United Technologies Research Center, East Hartford, Conn. 06108
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M. F. Blair
Gas Turbine Technology Group, United Technologies Research Center, East Hartford, Conn. 06108
J. Heat Transfer. Feb 1983, 105(1): 33-40 (8 pages)
Published Online: February 1, 1983
Article history
Received:
November 30, 1981
Online:
October 20, 2009
Citation
Blair, M. F. (February 1, 1983). "Influence of Free-Stream Turbulence on Turbulent Boundary Layer Heat Transfer and Mean Profile Development, Part I—Experimental Data." ASME. J. Heat Transfer. February 1983; 105(1): 33–40. https://doi.org/10.1115/1.3245555
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