Issue Section:
Technical Briefs
1.
Bontemps, A., Goubier, C., Marquet, C., Solecki, J. C., and Nardi, C., 1987, “Performance Limit of a Toluene Loaded, Closed Two-Phase Thermosyphon,” Proceedings of the 6th International Heat Pipe Conference, Grenoble, France, May 25–29.
2.
Gross
U.
1992
, “Reflux Condensation Heat Transfer Inside a Closed Thermosyphon
,” International Journal of Heat and Mass Transfer
, Vol. 35
, No. 2
, pp. 279
–294
.3.
Hahne, E., and Gross, U., 1981, “The Influence of the Inclination Angle on the Performance of a Closed Two-Phase Thermosyphon,” Proceedings of the 4th International Heat Pipe Conference, London, United Kingdom, Sept. 7–10.
4.
Negishi
K.
Sawada
T.
1983
, “Heat Transfer Performance of an Inclined Two-Phase Closed Thermosyphon
,” International Journal of Heat and Mass Transfer
, Vol. 26
, No. 8
, pp. 1207
–1213
.5.
Nguyen-Chi, H., and Groll, M., 1981, “Entrainment or Flooding Limit in a Closed Two-Phase Thermosyphon,” Proceedings of the 4th International Heat Pipe Conference, London, United Kingdom, Sept. 7–10.
6.
Terdtoon, P., Shiraishi, M., and Murakami, M., 1990, “Investigation of Effect of Inclination Angle on Heat Transfer Characteristics of Closed Two-Phase Thermosyphon,” Proceedings of the 7th International Heat Pipe Conference, Minsk, Russia, May 21–25.
7.
Wang
J. C. Y.
Ma
Y.
1991
, “Condensation Heat Transfer Inside Vertical and Inclined Thermosyphons
,” ASME JOURNAL OF HEAT TRANSFER
, Vol. 113
, pp. 777
–780
.8.
Zuo
Z. J.
Gunnerson
F. S.
1994
, “Numerical Modeling of the Steady-State Two-Phase Closed Thermosyphon
,” International Journal of Heat and Mass Transfer
, Vol. 37
, No. 17
, pp. 2715
–2721
.
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