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TECHNICAL NOTES

Foundations of Buoyancy Driven Heat Transfer Correlations

[+] Author and Article Information
Vedat S. Arpacı, Shu-Hsin Kao

Department of Mechanical Engineering, The University of Michigan, 2142 G. G. Brown, 2350 Hayward, Ann Arbor, MI 48109-2125

J. Heat Transfer 123(6), 1181-1184 (Feb 12, 2001) (4 pages) doi:10.1115/1.1392987 History: Received March 09, 2000; Revised February 12, 2001
Copyright © 2001 by ASME
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References

Arpacı;,  V. S., 1986, “Microscales of Turbulence and Heat Transfer Correlations,” Int. J. Heat Mass Transf., 29, pp. 1071–1078.
Arpacı;,  V. S., 1990, “Microscales of Turbulence and Heat Transfer Correlations,” Annu. Rev. Heat Transfer, 3, pp. 195–231.
Arpacı;,  V. S., 1995, “Buoyant Turbulent Flow Driven by Internal Energy Generation,” Int. J. Heat Mass Transf., 38, pp. 2761–2770.
Squire, H. B., 1938, Modern Developments in Fluid Dynamics, S. Goldstein ed., Oxford University Press, Oxford.
Catton, I., 1978, “Natural Convection in Enclosures,” 6th Int. Heat Transfer Conf., Toronto, 6 , pp. 13–31.
Bertin,  H., and Ozoe,  H., 1986, “Numerical Study of Two-dimensional Natural Convection in a Horizontal Fluid Layer Heated from Below, by Finite-Element Method: Influence of Prandtl Number,” Int. J. Heat Mass Transf., 29, pp. 439–449.
Bejan,  A., and Lage,  J. L., 1990, “The Prandtl Number Effect on the Transition in Natural Convection along a Vertical Surface,” ASME J. Heat Transfer, 112, pp. 787–790.
Vitharana,  V. L., and Lykoudis,  P. S., 1994, “Criteria for Predicting the Transition to Turbulence in Natural Convection along a Vertical Surface,” ASME J. Heat Transfer, 116, pp. 633–638.
Arpacı;,  V. S., and Li,  C. Y., 1995, “Turbulent Forced Diffusion Flames,” Combust. Flame, 102, pp. 170–178.
Arpacı;,  V. S., and Selamet,  A., 1991, “Microscales of Buoyancy Driven Turbulent Diffusion Flames,” Combust. Flame, 86, pp. 203–215.
Arpacı;,  V. S., and Kao,  S.-H., 1997, “Microscales of Turbulent Rotating Flows,” Int. J. Heat Mass Transf., 40, pp. 3819–3826.
Arpacı;,  V. S., and Kao,  S.-H., 1998, “Thermocapillary Driven Turbulent Heat Transfer” ASME J. Heat Transfer, 120, pp. 214–219.
Tennekes, H., and Lumley, J. L., 1972, A First Course in Turbulence, MIT Press, Cambridge, MA.
Churchill,  S. W., and Chu,  H. H. S., 1975, “Correlating Equations for Laminar and Turbulent Free Convection from a Vertical Plate,” Int. J. Heat Mass Transf., 18, pp. 1323–1329.
Le Fevre, E. J., 1956, “Laminar Free Convection from a Vertical Plane Surface,” Proc. 9th Int. Congress on Applied Mechanics, Brussels, 4 , p. 168.
McDonald,  J. S., and Connolly,  T. J., 1960, “Investigation of Natural Convection Heat Transfer in Liquid Sodium,” Nucl. Sci. Eng., 8, pp. 369–377.

Figures

Grahic Jump Location
The ratio of ΠLC in terms of Prandtl number
Grahic Jump Location
Nusselt number in terms of ΠL
Grahic Jump Location
Nusselt number in terms of ΠT

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