Computer modeling of geothermal systems has become a mature technology with
application to more than 100 fields world-wide. Large complex three-dimensional models …

Numerical simulation has become a widely practiced and accepted technique for studying
flow and transport processes in the vadose zone and other subsurface flow systems. This …

This third edition offers a comprehensive overview of the latest theories on flow, transport,
and heat-exchange processes in porous media. It also details sophisticated porous media …

ABSTRACT TOUGH2 is a numerical simulator for nonisothermal flows of multicomponent,
multiphase fluids in one, two, and three-dimensional porous and fractured media. The chief …

Abstract TOUGH+ HYDRATE v1. 2 is a code for the simulation of the behavior of
hydratebearing geologic systems, and represents the second update of the code since its …

Disposal of CO 2 from stationary sources (fossil-fired power plants) into brackish (saline)
aquifers has been suggested as a possible means of reducing emissions of greenhouse …

An equation-of-state (EOS) module has been developed for the TOUGH2 simulator,
belonging to the MULKOM family of computer codes developed at Lawrence Berkeley …

HYDRATE v1. 5 is a numerical code that for the simulation of the behavior of hydrate-
bearing geologic systems, and represents the third update of the code since its first release …

We investigate the effects of possible fault activation and slip during geological CO 2 storage
operations numerically. To this end we develop a numerical simulator by coupling a …

Geothermal energy, as a renewable energy source, has been intensively developed
recently because its utilization can reduce CO 2 emission, climate warming and sea level …