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TECHNICAL BRIEFS

Transpired Turbulent Boundary Layers Subject to Forced Convection and External Pressure Gradients

[+] Author and Article Information
Raúl Bayoán Cal, Xia Wang, Luciano Castillo

Rensselaer Polytechnic Institute, Department of Mechanical, Aerospace and Nuclear Engineering, Troy, NY 12180

J. Heat Transfer 127(2), 194-198 (Mar 15, 2005) (5 pages) doi:10.1115/1.1842790 History: Received May 07, 2003; Revised October 08, 2004; Online March 15, 2005
Copyright © 2005 by ASME
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References

George,  W. K., and Castillo,  L., 1997, “Zero-Pressure Gradient Turbulent Boundary Layer,” Appl. Mech. Rev., 50(11), pp. 689–729.
Castillo,  L., and George,  W. K., 2001, “Similarity Analysis for Turbulent Boundary Layer With Pressure Gradient: Outer Flow,” AIAA J., 39(1), pp. 41–47.
Wang,  X., and Castillo,  L., 2003, “Asymptotic Solutions in Forced Convection Turbulent Boundary Layers,” J. Turbulence,4(006).
Orlando, A. F., Kays, W. M., and Moffat, R. J., 1974, “Turbulent Transport of Heat and Momentum in a Boundary Layer Subject to Deceleration, Suction, and Variable Wall Temperature,” Report No. HMT-17, Dept. of Mech. Eng., Stanford University, Stanford, CA.
Millikan, C. M., 1938, “Critical Discussion of Turbulent Flows in Channels and Circular Tubes,” Proc. 5th Int. Congr. Applied Mech., Wiley, New York, pp. 386–392.
George,  W. K., Wosnik,  M., and Castillo,  L., 1997, “Similarity Analysis for Forced Convection Thermal Boundary Layer,” Transp. Phenomena Thermal Sci. Process Eng.,1, pp. 239–244.
Zagarola,  M. V., and Smits,  A. J., 1998, “Mean-Flow Scaling of Turbulent Pipe Flow,” J. Fluid Mech., 373, pp. 33–79.
Monin, A. S., and Yaglom, A. M., 1971, Statistic Fluid Mechanics, MIT Press, Cambridge, MA.
Cal, R. B., 2003, “Similarity Analysis of Transpired Turbulent Boundary Layers,” M.S. thesis, Rensselaer Polytechnic Institute.
Perry,  A. E., Bell,  J. B., and Joubert,  P. N., 1966, “Velocity and Temperature Profiles in Adverse Pressure Gradient Turbulent Boundary Layers,” J. Fluid Mech., 25, pp. 299–320.

Figures

Grahic Jump Location
Comparison of different outer temperature scalings in APG subject to suction and forced convection using the data of Orlando et al. 4
Grahic Jump Location
Comparison of different inner temperature scalings in APG subject to suction and forced convection using the data of Orlando et al. 4
Grahic Jump Location
Velocity profiles in APG normalized by different outer scalings and δ99 subject to suction and forced convection using the data of Orlando et al. 4

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