Multiphase flow and reactive transport are two essential physicochemical processes that
govern the effectiveness of geological carbon sequestration (GCS). The interaction and …

This manuscript presents a benchmark problem for the simulation of single-phase flow,
reactive transport, and solid geometry evolution at the pore scale. The problem is organized …

Multicomponent multiphase reactive transport processes with dissolution–precipitation are
widely encountered in energy and environment systems. A pore-scale two-phase multi …

The recent profusion of microscopic characterization methods applicable to Earth Science
materials, many of which are described in this volume (Anovitz and Cole 2015, this volume; …

We review theoretical and computational research, primarily from the past 10 years,
addressing the flow of reactive fluids in porous media. The focus is on systems where …

A comparison of the geochemical changes induced in sandstone by either pure or impure
CO 2 at geological CO 2 storage conditions was investigated. Samples of Berea Sandstone …

The injection of CO2 into the Earth's subsurface drives the fluid-rock system into “farfrom-
equilibrium” conditions, which means that the fluxes that return the system to equilibrium are …

Darcy-scale simulation of geochemical reactive transport has proven to be a useful tool to
gain mechanistic understanding of the evolution of the subsurface environment under …

Storage of air or compressed gas in porous formations is a promising means of large-scale,
long-term energy storage, but salt caverns have predominantly been used for storage to …

To prevent CO2 leakage and ensure the safety of long-term CO2 storage, it is essential to
investigate the flow mechanism of CO2 in complex pore structures at the pore scale. This …