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Determination of One Unknown Thermal Coefficient through a Mushy Zone Model with a Convective Overspecified Boundary Condition

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  • Andrea N. Ceretani
  • Domingo A. Tarzia

Abstract

A semi-infinite material under a solidification process with the Solomon-Wilson-Alexiades mushy zone model with a heat flux condition at the fixed boundary is considered. The associated free boundary problem is overspecified through a convective boundary condition with the aim of the simultaneous determination of the temperature, the two free boundaries of the mushy zone and one thermal coefficient among the latent heat by unit mass, the thermal conductivity, the mass density, the specific heat, and the two coefficients that characterize the mushy zone, when the unknown thermal coefficient is supposed to be constant. Bulk temperature and coefficients which characterize the heat flux and the heat transfer at the boundary are assumed to be determined experimentally. Explicit formulae for the unknowns are given for the resulting six phase-change problems, besides necessary and sufficient conditions on data in order to obtain them. In addition, relationship between the phase-change process solved in this paper and an analogous process overspecified by a temperature boundary condition is presented, and this second problem is solved by considering a large heat transfer coefficient at the boundary in the problem with the convective boundary condition. Formulae for the unknown thermal coefficients corresponding to both problems are summarized in two tables.

Suggested Citation

  • Andrea N. Ceretani & Domingo A. Tarzia, 2015. "Determination of One Unknown Thermal Coefficient through a Mushy Zone Model with a Convective Overspecified Boundary Condition," Mathematical Problems in Engineering, Hindawi, vol. 2015, pages 1-8, October.
  • Handle: RePEc:hin:jnlmpe:637852
    DOI: 10.1155/2015/637852
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    Cited by:

    1. Salva, N.N. & Tarzia, D.A., 2024. "Relationship between two solidification problems in order to determine unknown thermal coefficients when the heat transfer coefficient is very large," Applied Mathematics and Computation, Elsevier, vol. 468(C).

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