Stochastic analysis of multiphase flow in porous media: II. Numerical simulations
Document Type
Article
Journal/Book Title/Conference
Stochastic Hydrology and Hydraulics
Volume
10
Issue
3
Publication Date
8-1-1996
First Page
231
Last Page
251
Abstract
The first paper (Chang et al., 1995b) of this two-part series described the stochastic analysis using spectral/perturbation approach to analyze steady state two-phase (water and oil) flow in a, liquid-unsaturated, three fluid-phase porous medium. In this paper, the results between the numerical simulations and closed-form expressions obtained using the perturbation approach are compared. We present the solution to the one-dimensional, steady-state oil and water flow equations. The stochastic input processes are the spatially correlated logk where k is the intrinsic permeability and the soil retention parameter, α. These solutions are subsequently used in the numerical simulations to estimate the statistical properties of the key output processes. The comparison between the results of the perturbation analysis and numerical simulations showed a good agreement between the two methods over a wide range of logk variability with three different combinations of input stochastic processes of logk and soil parameter α. The results clearly demonstrated the importance of considering the spatial variability of key subsurface properties under a variety of physical scenarios. The variability of both capillary pressure and saturation is affected by the type of input stochastic process used to represent the spatial variability. The results also demonstrated the applicability of perturbation theory in predicting the system variability and defining effective fluid properties through the ergodic assumption.
Recommended Citation
Abin, A.; Kaluarachchi, Jagath J.; Kemblowski, M. W.; and Chang, C.-M., "Stochastic analysis of multiphase flow in porous media: II. Numerical simulations" (1996). Civil and Environmental Engineering Faculty Publications. Paper 1264.
https://digitalcommons.usu.edu/cee_facpub/1264