FEM analysis of binary dilute system solidification using the anisotropic porous medium model of a mushy zone

  • Jerzy Banaszek Warsaw University of Technology
  • Piotr Furmański Warsaw University of Technology

Abstract

Finite Element Method (FEM) calculations have been performed to address the problem of the influence of anisotropy of permeability and of thermal conductivity of a mushy region on a temporary flow pattern and temperature during solidification of binary mixtures. Computationally effective FEM algorithm is based on the combination of the projection method, the semi-implicit time marching scheme and the enthalpy- porosity model of the two-phase region. Example calculations are given for two different dilute solutions of ammonium chloride and water. The effect of permeability anisotropy considerably changes the shape of the mushy zone. Three different models of thermal conductivity, the first - based on a mixture theory, the second - fully anisotropic one and the third - the model of isotropic effective conductivity, have been analyzed and mutually compared. It has been found that the impact of the thermal conductivity anisotropy is visible only in the case when this property differs significantly in both phases.

Keywords

References

[1] G.A. Amhalhel, P. Furmański. Problems of modeling of flow and heat transfer in porous media. Bulletin of Institute of Heat Engineering, 85: 55- 88, 1997.
[2] J. Banaszek, Y. Jaluria, T.A. Kowalewski, M.Rebow. Semi-implicit FEM analysis of natural convection in freezing water. Numerical Heat Transfer, Part A ., 36: 449- 472, 1999.
[3] W.D. Bennon, F.P. Incropera. A continuum model for momentum, heat and spieces transoprt in binary solidliquid phase change systems - I. Model formulation. Int. J. Heat Mass Transfer, 30: 2161- 2170, 1987.
[4] W.D. Bennon, F.P. Incropera. A continuum model for momentum, heat and spieces transoprt in binary solidliquid phase change systems - II. Application to solidification in a rectangular cavity. Int. J. Heat Mass Transfer, 30: 2171- 2187, 1987.
[5] A.D. Brent, V.R. Voller, KJ. Reid. Enthalpy- porosity technique for modeling convection diffusion phase change: application to the melting of pure metal. Numerical Heat Transfer, 13: 297- 318, 1988.
Published
Apr 3, 2023
How to Cite
BANASZEK, Jerzy; FURMAŃSKI, Piotr. FEM analysis of binary dilute system solidification using the anisotropic porous medium model of a mushy zone. Computer Assisted Methods in Engineering and Science, [S.l.], v. 7, n. 3, p. 343-362, apr. 2023. ISSN 2956-5839. Available at: <https://cames.ippt.pan.pl/index.php/cames/article/view/1240>. Date accessed: 14 nov. 2024.
Section
Articles