The mechanism of critical heat flux (CHF) for higher system pressure remains to be clarified, even though it is important to evaluate the CHF for the light water reactor (LWR) which is operated under the high pressure condition. In this study, the process of bubble coalescence was simulated by using a computational multi-fluid dynamics (CMFD) simulation code TPFIT under various system pressure in order to investigate the behavior of bubbles as a basic study. The growth of bubbles was simulated by blowing of vapor from a tiny orifice simulating bubble bottom. One or four orifices were located on the bottom surface in this simulation study. The numerical simulations were conducted by varying the pressure and temperature.

Volume Subject Area:
Thermal-Hydraulics and Safety Analyses
Topics:
Bubbles, Pressure, Simulation, Critical heat flux, Light water reactors, Computer simulation, Dynamics (Mechanics), Fluids, High pressure (Physics), Orifices, Temperature, Vapors
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