This book provides a self-contained introduction to the simulation of flow and transport in
porous media, written by a developer of numerical methods. The reader will learn how to …

In the previous article Abushaikha et al.(2017)[1], we presented a fully-implicit mixed hybrid
finite element (MHFE) method for general-purpose compositional reservoir simulation. The …

We present a hydro-geomechanical model for subsurface methane hydrate systems. Our
model considers kinetic hydrate phase change and non-isothermal, multi-phase, multi …

Faulted reservoirs are commonly modeled by corner-point grids (CPGs). Because the two-
point flux approximation (TPFA) method is not consistent on non-K-orthogonal grids, multi …

Production of hydrocarbons and water from subsurface reservoirs are known to cause
permanent deformation of the reservoir and seismicity along faults both of which are …

We present a new fully-implicit, mixed-hybrid, finite-element (MHFE) discretization scheme
for general-purpose compositional reservoir simulation. The locally conservative scheme …

This article presents a new positivity-preserving finite-volume scheme with a nonlinear two-
point flux approximation, which uses optimization techniques for the face stencil calculation …

This article presents a new nonlinear finite‐volume scheme for the nonisothermal two‐
phase two‐component flow equations in porous media. The face fluxes are approximated by …

The embedded discrete fracture model (EDFM) is widely adopted for simulating fluid flow in
fractured porous media, but it faces limitations when dealing with blocking fractures due to …

We present a high-order method for miscible displacement simulation in porous media. The
method is based on discontinuous Galerkin discretization with weighted average …