Issue Section:
Technical Briefs
1.
Chi, S., 1976, Heat Pipe Theory and Practice: A Sourcebook, Hemisphere, Washington, DC.
2.
Curtila, R., and Chataing, T., 1984, “Experimental Study of a Revolving Heat Pipe,” Proceedings of the 5th International Heat Pipe Conference, Tsukuba, Japan, pp. 268–273.
3.
Faghri, A., 1995, Heat Pipe Science and Technology, Taylor and Francis, Washington, DC.
4.
Faghri
A.
Thomas
S.
1989
, “Performance Characteristics of a Concentric Annular Heat Pipe: Part I—Experimental Prediction and Analysis of the Capillary Limit
,” ASME JOURNAL OF HEAT TRANSFER
, Vol. III
, pp. 844
–850
.5.
Gi, K., and Maezawa, S., 1990, “Heat Transfer Characteristics of a Parallel Rotating Heat Pipe,” Proceedings of the 7th International Heat Pipe Conference, Minsk, Belarus, pp. 271–283.
6.
Klasing, K. S., 1998, “Performance Characteristics of Revolving Helically-Grooved Heat Pipes,” Master’s thesis, Wright State University, Dayton, OH.
7.
Klasing, K., Thomas, S., and Yerkes, K., 1998, “Prediction of the Operating Limits of Revolving Helically Grooved Heat Pipes,” Proceedings of the ASME/AIAA Joint Thermophysics Conference, HTD-Vol. 357-3, Albuquerque, NM, pp. 117–128.
8.
Niekawa, J., Matsumoto, K., Koizumi, T., Hasegawa, K., Kaneko, H., and Mizoguchi, Y., 1981, “Performance of Revolving Heat Pipes and Application to a Rotary Heat Exchanger,” Proceedings of the 4th International Heat Pipe Conference, London, pp. 225–234.
9.
Pokorny, B., Polasek, F., Schneller, J., and Stulc, P., 1984, “Heat Transfer in Co-Axial and Parallel Rotating Heat Pipes,” Proceedings of the 5th International Heat Pipe Conference, Tsukuba, Japan, pp. 259–267.
10.
Shah, R. K., and Bhatti, M. S., 1987, “Laminar Convective Heat Transfer in Ducts,” Handbook of Single-Phase Convective Heat Transfer, Eds., S. Kakac, R. K. Shah, and W. Aung, eds., John Wiley and Sons, New York.
11.
Shames, I., 1980, Engineering Mechanics, 3rd Ed., Prentice-Hall, Englewood Cliffs, NJ.
12.
Silverstein, C, 1992, Design and Technology of Heat Pipes for Cooling and Heat Exchange, Taylor & Francis, Washington, DC.
13.
Thomas
S.
Klasing
K.
Yerkes
K.
1998
, “The Effects of Transverse Acceleration-Induced Body Forces on the Capillary Limit of Helically Grooved Heat Pipes
,” ASME JOURNAL OF HEAT TRANSFER
, Vol. 120
, pp. 441
–451
.14.
Thoren, F., 1984, “Heat Pipe Cooled Induction Motors,” Proceedings of the 5th International Heat Pipe Conference, Tsukuba, Japan, pp. 365–371.
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