Now showing items 1-6 of 6
On the use of vertically averaged models to simulate CO2 migration in a layered saline aquifer
(The University of Bergen, 2010-06-01)
Geologic and flow characteristics such as permeability and porosity, capillary pressure, geologic structure, and thickness all influence and affect CO2 plume distribution to varying degrees. These parameters do not necessarily ...
Capturing the coupled hydro-mechanical processes occurring during CO2 injection – example from In Salah
At In Salah, CO2 is removed from the production stream of several natural gas fields and re-injected into a deep and relatively thin saline formation, in three different locations. The observed deformation on the surface ...
Robust simulation of sharp-interface models for fast estimation of CO2 trapping capacity in large-scale aquifer systems
Modeling geological carbon storage represents a new and substantial challenge for the subsurface geosciences. To increase understanding and make good engineering decisions, containment processes and large-scale storage ...
Fully-implicit simulation of vertical-equilibrium models with hysteresis and capillary fringe
Geological carbon storage represents a new and substantial challenge for the subsurface geosciences. To increase understanding and make good engineering decisions, containment processes and large-scale storage operations ...
An Open-Source Toolchain for Simulation and Optimization of Aquifer-Wide CO2 Storage
(Elsevier Ltd., 2016-02-04)
Planning and execution of large-scale, aquifer-wide CO2 storage operations will require extensive use of computer modelling and simulations. The required computational tools will vary depending on the physical characteristics ...
SUCCESS: SUbsurface CO2 storage–Critical elements and superior strategy
SUCCESS is a Center for Environmental Energy Research in Norway and performs research related to geological storage of CO2 in the subsurface. The SUCCESS centre is established by the Research Council of Norway together ...