Experiments were conducted to determine the effects of buoyancy and Coriolis forces on heat transfer in turbine blade internal coolant passages. The experiments were conducted with a large-scale, multipass, smooth-wall heat transfer model with both radially inward and outward flow. An analysis of the governing flow equations showed that four parameters influence the heat transfer in rotating passages: coolant-to-wall temperature ratio, Rossby number, Reynolds number, and radius-to-passage hydraulic diameter ratio. These four parameters were varied over ranges that are typical of advanced gas turbine engine operating conditions. It was found that both Coriolis and buoyancy effects must be considered in turbine blade cooling designs and that the effect of rotation on the heat transfer coefficients was markedly different depending on the flow direction. Local heat transfer coefficients were found to decrease by as much as 60 percent and increase by 250 percent from no-rotation levels. Comparisons with a pioneering stationary vertical tube buoyancy experiment showed reasonably good agreement. Correlation of the data is achieved employing dimensionless parameters derived from the governing flow equations.
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July 1991
Research Papers
Heat Transfer in Rotating Serpentine Passages With Smooth Walls
J. H. Wagner,
J. H. Wagner
United Technologies Research Center, East Hartford, CT 06108
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B. V. Johnson,
B. V. Johnson
United Technologies Research Center, East Hartford, CT 06108
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F. C. Kopper
F. C. Kopper
Pratt and Whitney, Commercial Engine Business, East Hartford, CT 06108
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J. H. Wagner
United Technologies Research Center, East Hartford, CT 06108
B. V. Johnson
United Technologies Research Center, East Hartford, CT 06108
F. C. Kopper
Pratt and Whitney, Commercial Engine Business, East Hartford, CT 06108
J. Turbomach. Jul 1991, 113(3): 321-330 (10 pages)
Published Online: July 1, 1991
Article history
Received:
January 17, 1990
Online:
June 9, 2008
Citation
Wagner, J. H., Johnson, B. V., and Kopper, F. C. (July 1, 1991). "Heat Transfer in Rotating Serpentine Passages With Smooth Walls." ASME. J. Turbomach. July 1991; 113(3): 321–330. https://doi.org/10.1115/1.2927879
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