ii The most widely advocated method of carbon capture and storage involves the injection of CO2 into underground geological formations. Key to the development of this geological sequestration technology is the existence of suitable high-integrity geological sites for the safe, long-term storage of CO2. Unlike depleted oil and gas reservoirs which are historically proven to be well-defined, formations with saline brines may not have a similar proven sealing capacity. In the main, complex geochemical reactions occur in the supercritical CO2 / brine / host rock environment which can cause significant changes in the porosity, permeability and injectivity of the formation. Depending of the nature of the processes, the effects of the underground ...
Underground carbon storage may become one of the solutions to address global warming. However, to ha...
Structural trapping is the primary mechanism for intensive CO2 sequestration in saline aquifers. Thi...
The minimum injection depth for the storage of CO2 is normally set at 800 metres. At and beyond this...
- iii-Of all geologic storage options, CO2 injection into deep saline aquifers offers the largest po...
Carbon dioxide Capturing, and Sequestration (CCS) is a promising technique that helps mitigate the a...
Rising atmospheric concentrations of CO2, and their role in global warming, have prompted efforts t...
Among the processes proposed to reduce the atmospheric concentration of carbon dioxide and, subseque...
Among the processes proposed to reduce the atmospheric concentration of carbon dioxide and, subseque...
Subsurface reservoirs being considered for storing CO{sub 2} include saline aquifers, oil and gas re...
Geological carbon sequestration in a saline formation is a promising technology for large-scale carb...
none1noAmong the processes proposed to reduce the atmospheric concentration of carbon dioxide and, s...
Geological carbon sequestration in a saline formation is a promising technology for large-scale carb...
International audienceField tests have clearly demonstrated that injecting CO2 in geological storage...
Many geoscientists endorse Carbon Capture and Storage (CCS) as a potential strategy for mitigating e...
Many geoscientists endorse Carbon Capture and Storage (CCS) as a potential strategy for mitigating e...
Underground carbon storage may become one of the solutions to address global warming. However, to ha...
Structural trapping is the primary mechanism for intensive CO2 sequestration in saline aquifers. Thi...
The minimum injection depth for the storage of CO2 is normally set at 800 metres. At and beyond this...
- iii-Of all geologic storage options, CO2 injection into deep saline aquifers offers the largest po...
Carbon dioxide Capturing, and Sequestration (CCS) is a promising technique that helps mitigate the a...
Rising atmospheric concentrations of CO2, and their role in global warming, have prompted efforts t...
Among the processes proposed to reduce the atmospheric concentration of carbon dioxide and, subseque...
Among the processes proposed to reduce the atmospheric concentration of carbon dioxide and, subseque...
Subsurface reservoirs being considered for storing CO{sub 2} include saline aquifers, oil and gas re...
Geological carbon sequestration in a saline formation is a promising technology for large-scale carb...
none1noAmong the processes proposed to reduce the atmospheric concentration of carbon dioxide and, s...
Geological carbon sequestration in a saline formation is a promising technology for large-scale carb...
International audienceField tests have clearly demonstrated that injecting CO2 in geological storage...
Many geoscientists endorse Carbon Capture and Storage (CCS) as a potential strategy for mitigating e...
Many geoscientists endorse Carbon Capture and Storage (CCS) as a potential strategy for mitigating e...
Underground carbon storage may become one of the solutions to address global warming. However, to ha...
Structural trapping is the primary mechanism for intensive CO2 sequestration in saline aquifers. Thi...
The minimum injection depth for the storage of CO2 is normally set at 800 metres. At and beyond this...