Integral balance methods applied to non-classical Stefan problems

J. BOLLATI; M.F. NATALE; J.A. SEMITIEL; DA. TARZIA

THERMAL SCIENCE

VINCA INST NUCLEAR SCI

Año: 2020 vol. 24 p. 1229 - 1241

0354-9836

In this paper we consider two different Stefan problems for a semi-infinite material for the non classical heat equation with a source which depends on the heat flux at the fixed face $x=0$. One of them (with constant temperature on $x=0$) was studied in cite{BrTa} where it was found a unique exact solution of similarity type and the other (with a convective boundary condition at the fixed face) is presented in this work. Due to the complexity of the exact solution it is of interest to obtain some kind of approximate solution. For the above reason, the exact solution of each problem is compared with approximate solutions obtained by applying the heat balance integral method and the refined heat balance integral method, assuming a quadratic temperature profile in space. In all cases, a dimensionless analysis is carried out by using the parameters: Stefan number (Ste) and the generalized Biot number (Bi). In addition it is studied the case when Bi goes to infinity, recovering the approximate solutions when a Dirichlet condition is imposed at the fixed face. Some numerical simulations are provided in order to verify the accuracy of the approximate methods.