Add to ORKGEffective carbon dioxide sequestration is hinged on rock permeability, a dynamic property dependent on the thermo-physical conditions of the storage rock. Changes to rock permeability in Berea sandstone and Savonnières limestone rocks undergoing triaxial compression, up to failure, are observed and analysed using live brine and supercritical carbon dioxide as injection fluids. Results obtained indicate the effect of induced fracture(s) on permeability evolution in the rocks as geomechanical or geochemical reactions occur in the samples
International audienceMantle peridotites have the potential to trap CO2 as carbonates. This process ...
Carbon dioxide (CO2) sequestered in saline aquifers undergoes a variety of chemically-coupled mechan...
CO2 capture and geological sequestration is one of the most practical and efficient methods of mitig...
A systematic and careful analysis of changes in the magnitude of geomechanical parameters is essenti...
We measured the change in permeability of two selected sandstones (Berea, Fonteinebleau) due to inje...
AbstractWe measured the change in permeability of two selected sandstones (Berea, Fonteinebleau) due...
CO2 storage in carbonate aquifers is a way to mitigate atmospheric CO2 emissions, but it leads to ac...
Carbon dioxide Capturing, and Sequestration (CCS) is a promising technique that helps mitigate the a...
CO2 geological storage has been studied as a countermeasure against global warming. When the injecte...
CO2 storage in different geological formations has been recognized as one of the promising mitigatio...
Permeability variation is one of the key factors influencing the injectivity of CO 2 in CO 2 sequest...
CO2 injection and storage in geological reservoirs is an attractive prospect for mitigating the anth...
Geologic carbon storage is considered as a requisite to effectively mitigate climate change, so larg...
Injection of carbon dioxide (CO2) underground, for long-term geological storage purposes, ...
Carbon dioxide capture and storage in deep geological formations is proving to be a very promising m...
International audienceMantle peridotites have the potential to trap CO2 as carbonates. This process ...
Carbon dioxide (CO2) sequestered in saline aquifers undergoes a variety of chemically-coupled mechan...
CO2 capture and geological sequestration is one of the most practical and efficient methods of mitig...
A systematic and careful analysis of changes in the magnitude of geomechanical parameters is essenti...
We measured the change in permeability of two selected sandstones (Berea, Fonteinebleau) due to inje...
AbstractWe measured the change in permeability of two selected sandstones (Berea, Fonteinebleau) due...
CO2 storage in carbonate aquifers is a way to mitigate atmospheric CO2 emissions, but it leads to ac...
Carbon dioxide Capturing, and Sequestration (CCS) is a promising technique that helps mitigate the a...
CO2 geological storage has been studied as a countermeasure against global warming. When the injecte...
CO2 storage in different geological formations has been recognized as one of the promising mitigatio...
Permeability variation is one of the key factors influencing the injectivity of CO 2 in CO 2 sequest...
CO2 injection and storage in geological reservoirs is an attractive prospect for mitigating the anth...
Geologic carbon storage is considered as a requisite to effectively mitigate climate change, so larg...
Injection of carbon dioxide (CO2) underground, for long-term geological storage purposes, ...
Carbon dioxide capture and storage in deep geological formations is proving to be a very promising m...
International audienceMantle peridotites have the potential to trap CO2 as carbonates. This process ...
Carbon dioxide (CO2) sequestered in saline aquifers undergoes a variety of chemically-coupled mechan...
CO2 capture and geological sequestration is one of the most practical and efficient methods of mitig...