Effects of Material Symmetry on the Coefficients of Transport in Anisotropic Porous Media

TL;DR

This paper examines how material symmetry influences transport coefficients in anisotropic porous media, focusing on dispersion, dispersivity, and their tensor representations, with implications for mass and heat transport modeling.

Contribution

It provides a detailed analysis of the effects of material symmetry on transport coefficients in anisotropic porous media, including coupled heat and mass transport.

Findings

Material symmetry significantly affects transport coefficients.

Tensor representations vary with symmetry class.

Implications for modeling coupled transport processes.

Abstract

The objective of this article is to highlight certain features of a number of coefficients that appear in models of phenomena of transport in anisotropic porous media, especially the coefficient of dispersion, the 2nd rank tensor D_{ij}, and the dispersivity coefficient, the 4th rank tensor a_{ijkl}, that appear in models of solute transport. Although we shall focus on the transport of mass of a dissolved chemical species in a fluid phase that occupies the void space, or part of it, the same discussion is also applicable to transport coefficients that appear in models that describe the advective mass flux of a fluid and the diffusive transport of other extensive quantities, like heat. The case of coupled processes, e.g. the simultaneous transport of heat and mass of a chemical species, are also considered. The entire discussion will be at the macroscopic level, at which a porous medium domain is visualized as homogenized continuum.