A Thermodynamically Complete Model for One-Dimensional Two-Phase Flows With Heat Exchange
DEFENCE SCIENCE AND TECHNOLOGY ORGANISATION EDINBURGH (AUSTRALIA)
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This publication reports on a compact presentation of a one-dimensional model for the description of two-phase flows with heat exchange. This model was proposed earlier in the form of a system of equations, containing the heat conduction and entropy conservation equations for each phase. In this report the system is formulated in a form that is consistent with the formulation of the preceding report of the author. The present system of equations uniformly describes the evolution of averaged variables and interphase fluctuation parameters. The correctness of the model has been established for convex equations of state and for proper compaction dynamics kinetics.
- Operations Research
- Fluid Mechanics