The accurate prediction of heat transfer coefficients on cooled gas turbine blades requires consideration of various influence parameters. The present study continues previous work with special efforts to determine the separate effects of each of several parameters important in turbine flow. Heat transfer and boundary layer measurements were performed along a cooled flat plate with various freestream turbulence levels (Tu = 1.6−11 percent), pressure gradients (k = 0−6 × 10−6), and cooling intensities (Tw/T∞ = 1.0−0.53). Whereas the majority of previously available results were obtained from adiabatic or only slightly heated surfaces, the present study is directed mainly toward application on highly cooled surfaces as found in gas turbine engines.
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July 1986
Research Papers
Laminar and Transitional Boundary Layer Structures in Accelerating Flow With Heat Transfer
K. Rued,
K. Rued
Lehrstuhl und Institut fuer Thermische Stroemungsmaschinen, Universitaet Karlsruhe, Karlsruhe, West Germany
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S. Wittig
S. Wittig
Lehrstuhl und Institut fuer Thermische Stroemungsmaschinen, Universitaet Karlsruhe, Karlsruhe, West Germany
Search for other works by this author on:
K. Rued
Lehrstuhl und Institut fuer Thermische Stroemungsmaschinen, Universitaet Karlsruhe, Karlsruhe, West Germany
S. Wittig
Lehrstuhl und Institut fuer Thermische Stroemungsmaschinen, Universitaet Karlsruhe, Karlsruhe, West Germany
J. Turbomach. Jul 1986, 108(1): 116-123 (8 pages)
Published Online: July 1, 1986
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Received:
January 20, 1986
Online:
November 9, 2009
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Rued, K., and Wittig, S. (July 1, 1986). "Laminar and Transitional Boundary Layer Structures in Accelerating Flow With Heat Transfer." ASME. J. Turbomach. July 1986; 108(1): 116–123. https://doi.org/10.1115/1.3262010
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