The clearance gap between the stationary outer air seal and blade tips of an axial turbine allows a clearance gap leakage flow to be driven through the gap by the pressure-to-suction side pressure difference. The presence of strong secondary flows on the pressure side of the airfoil tends to deliver air from the hottest regions of the mainstream to the clearance gap. The blade tip region, particularly near the trailing edge, is very difficult to cool adequately with blade internal coolant flow. In this case, film cooling injection directly onto the blade tip region can be used in an attempt to directly reduce the heat transfer rates from the hot gases in the clearance gap to the blade tip. The present paper is intended as a memorial tribute to the late Professor Darryl E. Metzger, who made significant contributions in this particular area over the past decade. A summary of this work is made to present the results of his more recent experimental work, which was performed to investigate the effects of film coolant injection on convection heat transfer to the turbine blade tip for a variety of tip shapes and coolant injection configurations. Experiments are conducted with blade tip models that are stationary relative to the simulated outer air seal based on the result of earlier works that found the leakage flow to be mainly a pressure-driven flow, which is related strongly to the airfoil pressure loading distribution, and only weakly, if at all, to the relative motion between blade tip and shroud. Both heat transfer and film effectiveness are measured locally over the test surface using a transient thermal liquid crystal test technique with a computer vision data acquisition and reduction system for various combinations of clearance heights, clearance flow Reynolds numbers, and film flow rates with different coolant injection configurations. The present results reveal a strong dependency of film cooling performance on the choice of the coolant supply hole shapes and injection locations for a given tip geometry.
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January 1995
Research Papers
Darryl E. Metzger Memorial Session Paper: A Summary of the Cooled Turbine Blade Tip Heat Transfer and Film Effectiveness Investigations Performed by Dr. D. E. Metzger
Y. W. Kim,
Y. W. Kim
Dept. of Mechanical and Aerospace Eng., Arizona State University, Tempe, AZ 85287
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J. P. Downs,
J. P. Downs
United Technologies Corp., Pratt & Whitney, West Palm Beach, FL 33410
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F. O. Soechting,
F. O. Soechting
United Technologies Corp., Pratt & Whitney, West Palm Beach, FL 33410
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W. Abdel-Messeh,
W. Abdel-Messeh
United Technologies Corp., Pratt & Whitney, Longueuil, Quebec, Canada
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G. D. Steuber,
G. D. Steuber
United Technologies Corp., Pratt & Whitney, East Hartford, CT 06108
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S. Tanrikut
S. Tanrikut
United Technologies Corp., Pratt & Whitney, East Hartford, CT 06108
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Y. W. Kim
Dept. of Mechanical and Aerospace Eng., Arizona State University, Tempe, AZ 85287
J. P. Downs
United Technologies Corp., Pratt & Whitney, West Palm Beach, FL 33410
F. O. Soechting
United Technologies Corp., Pratt & Whitney, West Palm Beach, FL 33410
W. Abdel-Messeh
United Technologies Corp., Pratt & Whitney, Longueuil, Quebec, Canada
G. D. Steuber
United Technologies Corp., Pratt & Whitney, East Hartford, CT 06108
S. Tanrikut
United Technologies Corp., Pratt & Whitney, East Hartford, CT 06108
J. Turbomach. Jan 1995, 117(1): 1-11 (11 pages)
Published Online: January 1, 1995
Article history
Received:
February 15, 1994
Online:
January 29, 2008
Citation
Kim, Y. W., Downs, J. P., Soechting, F. O., Abdel-Messeh, W., Steuber, G. D., and Tanrikut, S. (January 1, 1995). "Darryl E. Metzger Memorial Session Paper: A Summary of the Cooled Turbine Blade Tip Heat Transfer and Film Effectiveness Investigations Performed by Dr. D. E. Metzger." ASME. J. Turbomach. January 1995; 117(1): 1–11. https://doi.org/10.1115/1.2835638
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