AN ANALYSIS OF FILM CONDENSATION, FILM EVAPORATION, AND SINGLE-PHASE HEAT TRANSFER FOR LIQUID PRANDTL NUMBERS FROM 10-3-TO-104

Annular two-phase flow inside of circular tubes is analyzed for a wide range of film Reynolds a nd Prandtl numbers. This analysis is applied to the prediction of film heat transfer coefficients and film thicknesses for the cases of condensation and evaporation of pure substances inside tubes, two-component flow in tubes, and condensing falling films on vertical surfaces. The analysis is also extended to single-phase flow in tubes. Extensive comparisons are made with experimental and theoretical results of other investigators, indicating good agreement if consideration is given to liquid-vapor interfacial resistance to heat flow for cases involving phase transformation. 1. © 1969 by ASME.