Modeling Film Boiling Destabilization Due to a Pressure Shock Arrival

Abstract

The phenomenon of film destabilization due to an externally applied pressure transient has been investigated experimentally by Inoue and Bankoff. This film collapse process is of interest with regard to vapor explosions. An important step in vapor explosions is believed to be the onset of the rapid heat transfer between the molten fuel and coolant caused by pressure-pulse-induced film boiling destabilization. A dynamic film boiling model was developed to analyze film destabilization, and to predict from Inoue's experiment over a range of initial pressures and final shock pressures, shock rise times, and heater surface temperatures. The model indicated three important results. One possible inference from this analysis is that the suppression of vapor explosions due to initial conditions (e.g., ambient pressure) is caused by the increasing difficulty of collapsing the vapor film. Thus, to overcome the effects of these initial conditions, a more energetic trigger needs to be applied to destabilize the film and to induce the explosion.