Modeling gas-phase flow in porous media

Nearly all CFD methods can be considered as discretization methods for partial dierential equations, such as ®nite dierence, ®nite volume, ®nite element, spectral or boundary integral element methods. Virtually unrecognized by the scienti®c mainstream in computational ¯uid dynamics (CFD) during the

Many of the complex physical processes relevant for compositional multi-phase flow in porous media are well understood at the pore-scale level. In order to study CO 2 storage in sub-surface formations, however, it is not feasible to perform simulations at these small scales directly and effective mo

## Abstract A new model for thermal dispersion is proposed based on the character of flow in porous media which relates the dispersion with the velocity and the tortuosity of fluid flow in the pores. Compared with former similar models, this one has fewer adjustable empirical constants, and therefo

A general numerical model developed to simulate the time-dependent changes of moisture content, temperature and pore pressures is proposed for a porous material. The model is based on a coupled heat and mass transfer mathematical formulation. The model's validation is conducted using experimental da