Abstract
A continuum theory of non-equilibrium transports of mass, momentum and energy accompanied by a phase change across an interface between two different fluids is developed. An exact solution of the governing differential system is obtained for the case of constant rate rapid evaporation or condensation due to differential heating or cooling across a flat interface in a microgravity environment. The results of the solution are used to demonstrate that the heat transfer to the interface is not only to change the phase of fluid but also to impart momentum and kinetic energy to the vapor and host dry gas mixture. The fraction of the heat transfer which is not used for the phase change is shown to be quite significant in some certain cases. An exact solution for the case of constant rate freezing or melting across a flat interface at microgravity is also obtained. The results of the solution is used to demonstrate how the motion of the liquid ahead of the moving interface is affected by the change of specific volume upon phase change.
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Lin, S.P. (2003). Non-equilibrium Phase Change. In: Narayanan, R., Schwabe, D. (eds) Interfacial Fluid Dynamics and Transport Processes. Lecture Notes in Physics, vol 628. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-45095-5_17
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DOI: https://doi.org/10.1007/978-3-540-45095-5_17
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