Boiling water jet outflow from a thin nozzle: spatial modeling
R.Kh. Bolotnova1 and V.A. Korobchinskaya1,2
1Mavlutov Institute of Mechanics, Ufa,
Russia
2Bashkir State University, Ufa,
Russia
E-mail: bolotnova@anrb.ru
Keywords: thin nozzle, boiling water outflow, nucleation, mathematical and numerical modeling
Pages: 761–771
Abstract
This study presents
dual-temperature two-phase model for liquid-vapor mixture with account for
evaporation and inter-phase heat transfer (taken in single-velocity
single-pressure approximation). Simulation was performed using the
shock-capturing method and moving Lagrangian grids. Analysis was performed for
simulated and experimental values of nucleation frequency (for refining the
initial number and radius of microbubbles) which affect the evaporation rate.
Validity of 2D and 1D simulation was examined through comparison with
experimental data. The peculiarities of the water-steam formation at the
initial stage of outflow through a thin nozzle were studied for different initial equilibrium states of water for the
conditions close to chosen experimental conditions.
DOI: 10.1134/S0869864317050110
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