Buckley–Leverett Theory for a Forchheimer–Darcy Multiphase Flow Model with Phase Coupling

Abstract: This paper is dedicated to the modeling, analysis, and numerical simulation of a two-phase non-Darcian flow through a porous medium with phase-coupling. Specifically, we introduce an extended Forchheimer–Darcy model where the interaction between phases is taken into consideration. From the modeling point of view, the extension consists of the addition to each phase equation of a term depending on the gradient of the pressure of the other phase, leading to a coupled system of differential equations. The obtaine… Show more

“…The software also significantly eases the definition of physical models at the frontend and the solving of data at the backend. This comparison method has been implemented in numerous publications, − ,, although such comparisons focus on differences in solution methods rather than physical contrasts; it is, however, an effective way to verify the results. Figure presents the gas saturation profiles during 365 days of the CO 2 injection.…”

Analytical Model for Assessing the Impact of High-Rate CO₂ Injection on Dry-out and Salt Precipitation in the Near-Wellbore Region of Saline Aquifers

“…The software also significantly eases the definition of physical models at the frontend and the solving of data at the backend. This comparison method has been implemented in numerous publications, − ,, although such comparisons focus on differences in solution methods rather than physical contrasts; it is, however, an effective way to verify the results. Figure presents the gas saturation profiles during 365 days of the CO 2 injection.…”

Analytical Model for Assessing the Impact of High-Rate CO₂ Injection on Dry-out and Salt Precipitation in the Near-Wellbore Region of Saline Aquifers

Physics-Informed Neural Network for Solving Buckley-Leverett Equation of Plane Radial Flow