This review covers the dynamics and tendency toward rupture of thin evaporating liquid films on a heated surface. Very large heat transfer coefficients can be obtained. The applications include various boiling heat transfer and film cooling devices. A relatively new area for study is heat transfer through ultrathin films, which are less than 100 nm in thickness, and hence subject to van der Waals and other long-range molecular forces. Some recent work employing lubrication theory to obtain an evolution equation for the growth of a surface wave is described. Earlier phenomenological work is briefly discussed, as well as the connection between forced-convection subcooled nucleate boiling and thin-film heat transfer.

Issue Section:
Research Papers
Keywords:
Evaporation, Phase-Change Phenomena, Thin Film Flow
Topics:
Dynamics (Mechanics), Evaporation, Liquid films, Stability, Thin films, Heat transfer, Boiling, Film cooling, Flow (Dynamics), Forced convection, Heat transfer coefficients, Lubrication theory, Nucleate boiling, Rupture, Subcooling, Surface waves (Fluid)
This content is only available via PDF.
Copyright © 1990
 by The American Society of Mechanical Engineers
You do not currently have access to this content.