Coupled heat and mass transfer in unsaturated soil—a potential-based solution

New parallel software for the analysis of coupled heat and moisture transfer in unsaturated soil is developed. The model, written in a two-dimensional polar co-ordinate formulation, is based on a finite difference self-implicit method. The code is programmed in FORTRAN with message passing libraries

A three-dimensional numerical model is presented for three-phase flow (moisture, air, and heat) in a deformable partly saturated soil with deformation calculated via a non-linear elastic theory. The present work is an extension of a two-dimensional analysis presented by Thomas and He. The objective

This paper presents a formulation for coupled heat and moisture transfer in a deformable partially saturated soil. The research is based on a mechanistic phase interaction model coupled to a state surface approach. The method takes into account the coupling effect of temperature gradient and deforma

fimte element method IS presented for solvmg the coupled non-linear parabolic dlfferentlal equattons descnbmg transtent transport of heat and mass m chemically reacting systems The method appears to be a useful approxtmatton for a wade vartety of problems Typtcal numerical results are reported for n