It is well known that the classical description of melting/solidification processes leads to a mathematical problem in which the regions occupied by the two phases are separated by a sharp interface, the free boundary. On such an interface the temperature u is set equal to the phase-change temperature (which is assumed constant, say 0) whereas in the solid and in the liquid regions u is negative or positive respectively and satisfies the corresponding heat conduction equation; the energy balance (Stefan condition) across the free boundary completes the model along with initial and boundary conditions.
Phase change without sharp interfaces / A. FASANO; PRIMICERIO M.. - STAMPA. - (1989), pp. 107-125. [10.1007/978-3-0348-9148-6_7]
Phase change without sharp interfaces
FASANO, ANTONIO;PRIMICERIO, MARIO
1989
Abstract
It is well known that the classical description of melting/solidification processes leads to a mathematical problem in which the regions occupied by the two phases are separated by a sharp interface, the free boundary. On such an interface the temperature u is set equal to the phase-change temperature (which is assumed constant, say 0) whereas in the solid and in the liquid regions u is negative or positive respectively and satisfies the corresponding heat conduction equation; the energy balance (Stefan condition) across the free boundary completes the model along with initial and boundary conditions.
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