Accession Number : AD0019784


Title :   THE GROWTH OF VAPOR BUBBLES IN SUPER-HEATED LIQUIDS


Corporate Author : CALIFORNIA INST OF TECH PASADENA HYDRODYNAMICS LAB


Personal Author(s) : Plesset, M S ; Zwick, S A


Full Text : https://apps.dtic.mil/dtic/tr/fulltext/u2/019784.pdf


Report Date : Aug 1953


Pagination or Media Count : 26


Abstract : The growth of a vapor bubble in a superheated liquid is controlled by the inertia of the liquid, the surface tension, and the vapor pressure. As the bubble grows, evaporation takes place at the bubble boundary, and the temperature and vapor pressure in the bubble are decreased. The heat inflow requirement of evaporation, however, depends on the rate of bubble growth, so that the dynamic problem is linked with a heat diffusion problem. Since the heat diffusion problem has been solved, a quantitative formulation of the dynamic problem can be given. A solution for the radius of the vapor bubble as a function of time is obtained. This asymptotic solution covers the range of physical interest since the radius at which it becomes valid is near the lower limit of experimental observation. It shows the strong effect of heat diffusion on the rate of bubble growth. Comparison of the predicted radius-time behavior with experimental observations in superheated water shows good agreement.


Descriptors :   *SUPERHEATING , *BUBBLES , REQUIREMENTS , INERTIA , DYNAMICS , LIQUIDS , VAPORS , WATER , GROWTH(GENERAL) , SURFACE TENSION , VAPOR PRESSURE , HEAT , EVAPORATION , FLOW , ASYMPTOTIC SERIES , FORMULATIONS , OBSERVATION , RATES , BOUNDARIES , THERMAL DIFFUSION , LIMITATIONS


Subject Categories : Thermodynamics


Distribution Statement : APPROVED FOR PUBLIC RELEASE