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Analyse numérique des procédés de fusion et de congélation entraînés par flottabilité.

A numerical analysis of buoyancy-driven melting and freezing.

Auteurs : SCANLON T. J., STICKLAND M. T.

Type d'article : Article

Résumé

A numerical investigation of transient natural convective heat transfer with coupled phase change is presented. The numerical model attempted to capture the solid-fluid interface using a fixed-grid solution and is applied to two pure substance cases found in published literature, one considering the melting of 95% pure lauric acid and the other involving the freezing of water. The governing equations were solved in a manner such that if the temperature falls below the freezing isotherm then the convection terms in the equations of motion are effectively disengaged. Variations in the specific heat of the material were incorporated in order to account for the phase change. A non-Boussinesq approach was considered; it accounts for any density extremes in the flow, particularly for the density inversion found in water. In both the cases considered, the phase change occurs between fixed temperature boundaries, and Rayleigh numbers rest well within the laminar flow regime. From the results obtained, it was demonstrated that a relatively simple numerical technique can be applied to capture the physics of buoyancy-driven melting and freezing and that the results are in reasonable agreement with experimental data.

Détails

  • Titre original : A numerical analysis of buoyancy-driven melting and freezing.
  • Identifiant de la fiche : 2004-1631
  • Langues : Anglais
  • Source : International Journal of Heat and Mass Transfer - vol. 47 - n. 3
  • Date d'édition : 01/2004

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