By Lixin Cheng and Dieter Mewes (Ed)
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Additional resources for Advances in Multiphase Flow and Heat Transfer, Volume 2
Passive Condensers Advances in Multiphase Flow and Heat Transfer Vol. 2 (2009) 35                  M. M. Hasan, Lutful I. Khan, V. Nayagam and R. Balasubramaniam, Conceptual Design of a Condensing Heat Exchanger for Space Systems Using Porous Media, NASA Report NASA/TM—2006-214130, May 2006. P. Cereceda, R. Schemenauer and M. Suit, “An alternative water supply for Chilean coastal desert villages”, Int. J Water Resour. , vol. 8, pp.
385 ]⎤ ⎥ ⎥⎦ (W/m2K) (50) Correlations for Condensation in the Presence of Non-Condensable Presence of even a small amount of non-condensable gas in the condensing vapor leads to a significant reduction in heat transfer during condensation. The buildup of non-condensable gases near the film vapor interface inhibits the diffusion of vapor from the bulk mixture to the liquid film. The net effect is to reduce the effective driving force for heat and mass transfer. In Figure 18 shows the temperature and non-condensable gas boundary layer nears the film and vapor interface.
Vierow and V. E. Schrock, “condensation in a natural circulation loop with noncondensable gas present: Part I - Heat transfer”, Japan - U. S. ) 1992. S. Z. E. F. Peterson, “An investigation of condensation from steam–gas mixtures flowing downward inside a vertical tube”, Nuclear Eng. Design, vol. 177, pp. 53–69, 1997. H. Araki, Y. Kataoka and M. Murase, "Measurement of condensation heat transfer coefficient inside a vertical tube in the presence of noncondensable gas", J. Nuclear Science and Technology, Vol.
Advances in Multiphase Flow and Heat Transfer, Volume 2 by Lixin Cheng and Dieter Mewes (Ed)