Add to ORKGCarbon dioxide (CO2) capture and storage is one of the most important measures to reduce the atmospheric concentration of CO2. To ensure safe storage, operations must be conducted in way that respects operational limitations. Furthermore, the operational limitations should be based on models appropriately accounting for relevant material properties and in-situ stress conditions. In this study, we combine various experimental approaches on the Draupne shale to get a more complete picture of the properties of intact and naturally fractured samples and to evaluate the feasibility of using passive seismic to monitor this North Sea caprock. The measured properties combined with in-situ stresses are used to calculate stresses acting on arbitraril...
CO2 sequestration in geological formations is a promising technology and a crucial measure to reduce...
The successful commercial scale deployment of carbon capture and storage (CCS) requires assurance of...
Carbon dioxide capture and storage in deep geological formations is proving to be a very promising m...
Carbon dioxide (CO2) capture and storage is one of the most important measures to reduce the atmosph...
The mechanical integrity of caprocks overlying injection formations is one of the key factors for sa...
The Draupne shale is a rock formation functioning as overburden for gas reservoirs in the Norwegian ...
Assessment of the geomechanical properties of organic-rich shale caprocks is critical for a successf...
Laboratory tests were performed on the Draupne shale formation, which may serve as a seal over CO2 s...
The increased anthropogenic emission of carbon dioxide (CO2) is a serious concern due to its effects...
This study is a small part of ongoing research for CO2 sequestration at Longyearbyen CO2 Storage Lab...
Characterization of caprock shale is critical in CO2 storage site evaluation because the caprock sha...
International audienceAssessing the potential for leakage through faults plays a key role for the lo...
Carbon capture and storage (CCS) by geological sequestration comprises a permeable formation (reserv...
Carbon capture and storage (CCS) by geological sequestration comprises a permeable formation (reserv...
An overview of the three-year program and results of the Geocarbone-Integrity French proje...
CO2 sequestration in geological formations is a promising technology and a crucial measure to reduce...
The successful commercial scale deployment of carbon capture and storage (CCS) requires assurance of...
Carbon dioxide capture and storage in deep geological formations is proving to be a very promising m...
Carbon dioxide (CO2) capture and storage is one of the most important measures to reduce the atmosph...
The mechanical integrity of caprocks overlying injection formations is one of the key factors for sa...
The Draupne shale is a rock formation functioning as overburden for gas reservoirs in the Norwegian ...
Assessment of the geomechanical properties of organic-rich shale caprocks is critical for a successf...
Laboratory tests were performed on the Draupne shale formation, which may serve as a seal over CO2 s...
The increased anthropogenic emission of carbon dioxide (CO2) is a serious concern due to its effects...
This study is a small part of ongoing research for CO2 sequestration at Longyearbyen CO2 Storage Lab...
Characterization of caprock shale is critical in CO2 storage site evaluation because the caprock sha...
International audienceAssessing the potential for leakage through faults plays a key role for the lo...
Carbon capture and storage (CCS) by geological sequestration comprises a permeable formation (reserv...
Carbon capture and storage (CCS) by geological sequestration comprises a permeable formation (reserv...
An overview of the three-year program and results of the Geocarbone-Integrity French proje...
CO2 sequestration in geological formations is a promising technology and a crucial measure to reduce...
The successful commercial scale deployment of carbon capture and storage (CCS) requires assurance of...
Carbon dioxide capture and storage in deep geological formations is proving to be a very promising m...