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TECHNICAL NOTES

Local Pool Boiling Coefficients on the Inside Surface of a Horizontal Tube

[+] Author and Article Information
Myeong-Gie Kang

Department of Mechanical Engineering Education, Andong National University 388 Songchun-dong, Andong-city, Kyungbuk 760-749, Korea

J. Heat Transfer 126(4), 638-641 (May 04, 2004) (4 pages) doi:10.1115/1.1778190 History: Received November 10, 2003; Revised May 04, 2004
Copyright © 2004 by ASME
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References

Chun,  M. H., and Kang,  M. G., 1998, “Effects of Heat Exchanger Tube Parameters on Nucleate Pool Boiling Heat Transfer,” ASME J. Heat Transfer, 120, pp. 468–476.
Lance,  R. P., and Myers,  J. E., 1958, “Local Boiling Coefficients on a Horizontal Tube,” AIChE J., 4(1), pp. 75–80.
Cornwell,  K., and Houston,  S. D., 1994, “Nucleate Pool Boiling on Horizontal Tubes: A Convection-Based Correlation,” Int. J. Heat Mass Transfer, 37, Suppl. 1, pp. 303–309.
Kang,  M. G., 2000, “Effect of Tube Inclination on Pool Boiling Heat Transfer,” ASME J. Heat Transfer, 122, pp. 188–192.
Jung,  D. S., Venant,  J. E. S., and Sousa,  A. C. M., 1987, “Effects of Enhanced Surfaces and Surface Orientations on Nucleate and Film Boiling Heat Transfer in R-11,” Int. J. Heat Mass Transfer, 30(12), pp. 2627–2639.
Nishikawa,  K., Fujita,  Y., Uchida,  S., and Ohta,  H., 1984, “Effect of Surface Configuration on Nucleate Boiling Heat Transfer,” Int. J. Heat Mass Transfer, 27(9), pp. 1559–1571.
Jabardo,  J. M. S., and Filho,  E. P. B., 2000, “Convective Boiling of Halocarbon Refrigerants Flowing in a Horizontal Copper Tube—An Experimental Study,” Exp. Therm. Fluid Sci., 23, pp. 93–104.
Hewitt, G. F., 1978, Nucleate Boiling Heat Transfer, Two-Phase Flows and Heat Transfer With Application to Nuclear Reactor Design Problems, J. J. Ginoux, ed., Hemisphere Publishing Corporation, pp. 89–109.
Kang,  M. G., 2002, “Pool Boiling Heat Transfer in Vertical Annular Crevices,” Int. J. Heat Mass Transfer, 45, pp. 3245–3249.

Figures

Grahic Jump Location
Schematic of the experimental apparatus: (a) water storage tank; (b) test section supporter; and (c) test section
Grahic Jump Location
Changes in local values along the tube periphery: (a) q versus ΔTsat; and (b) hb versus q
Grahic Jump Location
Boiling mechanisms on the inside surface of a horizontal tube: (a) stage 1; (b) stage 2; (c) stage 3; and (d) stage 4

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