Abstract The In Salah Gas Joint Venture CO 2 storage project has been in operation in Algeria since 2004 and is currently the world’s largest onshore CO 2 storage project. CO 2 is injected into a saline aquifer of a gas reservoir several km away from the gas producers. Current focus in the project is on implementing a comprehensive monitoring strategy and modelling the injection behaviour in order to ensure and verify safe long-term storage. A key part of this effort is the understanding of the processes involved in CO 2 migration within relatively low-permeability sandstones and shales influenced by fractures and faults. We summarise our current understanding of the fault and fracture pattern at this site and show preliminary forecasts of the system performance using Discrete Fracture Models and fluid flow simulations. Despite evidence of fractures at the reservoir/aquifer level, the thick mudstone caprock sequence provides an effective flow and mechanical seal for the storage system; however, quantification of the effects of fracture flow is essential to the site verification.
[1]
S. Bachu,et al.
Sequestration of CO2 in geological media in response to climate change: capacity of deep saline aquifers to sequester CO2 in solution
,
2003
.
[2]
A. Lothe,et al.
Reservoir geology of the Utsira Formation at the first industrial-scale underground CO2 storage site (Sleipner area, North Sea)
,
2004,
Geological Society, London, Special Publications.
[3]
Philip Ringrose,et al.
Plume Estimation Around Well KB-502 at the In Salah Gas Development CO2 Storage Site
,
2008
.
[4]
B. Berkowitz.
Characterizing flow and transport in fractured geological media: A review
,
2002
.
[5]
Fred Riddiford,et al.
Monitoring geological storage the In Salah Gas CO2 storage project
,
2005
.