Affiliation:
1. Department of Chemical Engineering and Sea Water Conversion Program, University of California, Berkeley, Calif.
Abstract
Heat transfer coefficients on smooth plate rotating evaporator-condensers are reliably predicted by equation (2). Radial machine grooving of the condensing surface improves the heat transfer coefficient in filmwise condensation on this surface by reducing the resistance up to 65 percent. The overall coefficient was improved some 13 percent. Surfaces radially scratched by coarse sandpaper exhibited higher coefficients than smooth surfaces. Sanding the condensation side improved the overall coefficient about 8 percent, and sanding the evaporation side improved it about 10 percent. Care should be used in applying grooves to the evaporation side, however, as they increase the tendency toward local overevaporation and, hence, scale formation. Machined grooves on the evaporation side reduced overall coefficients.
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Cited by
4 articles.
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1. Boiling on the surface of a rotating disc;Journal of Food Engineering;1996-11
2. Condensation on a vertical rotating finned tube;The Canadian Journal of Chemical Engineering;1971-02
3. Heat transfer—A review of current literature;International Journal of Heat and Mass Transfer;1968-02
4. Multiple-effect rotating evaporator;Desalination;1966-12