Add to ORKGDefects along wellbore interfaces constitute potential pathways for CO2 to leak from geological storage systems. In previous experimental work, we demonstrated that CO2-induced reaction over length-scales of several meters can lead to self-sealing of such defects. In the present work, we develop a reactive transport model that, on the one hand, enables μm-mm scale exploration of reactions along debonding defects and, on the other hand, allows simulation of the large, 6 m-long samples used in our experiments. At these lengths, we find that interplay between flow velocity and reaction rate strongly affects opening/sealing of interfacial defects, and depth of chemical alteration. Carbonate precipitation in initially open defects decreases flow...
AbstractSuccessful long-term geological storage of carbon dioxide (CO2) to reduce increasing atmosph...
[1] The interaction between wellbore cement and CO2 has the potential to alter cement properties and...
Abstract Fractures and defects in wellbore cement can lead to increased possibilities of CO2 leakage...
Defects along wellbore interfaces constitute potential pathways for CO2 to leak from geological stor...
Defects along wellbore interfaces constitute potential pathways for CO<sub>2</sub> to leak from geol...
Debonding at casing-cement interfaces poses a leakage pathway risk that may compromise well integrit...
Debonding-defects at the interfaces between wellbore casing and cement are widely recognized as prov...
Seepage of CO2 along wellbores presents a containment risk for geological storage, particularly if p...
Carbon Capture and Storage (CCS), involving the capture of CO2 at large point sources, such as power...
Carbon Capture and Storage (CCS), involving the capture of CO2 at large point sources, such as power...
AbstractWells remain inadequately studied with respect to the probability and rate of leakage in geo...
The risk of CO2 leakage from damaged wellbore is identified as a critical issue for the feasibility ...
International audienceThe risk of CO 2 leakage from damaged wellbore is identified as a critical iss...
International audienceAssessing the possibility of CO2 leakage is one of the major challenges for ge...
AbstractWellbore integrity is one of the key performance criteria in the geological storage of CO2. ...
AbstractSuccessful long-term geological storage of carbon dioxide (CO2) to reduce increasing atmosph...
[1] The interaction between wellbore cement and CO2 has the potential to alter cement properties and...
Abstract Fractures and defects in wellbore cement can lead to increased possibilities of CO2 leakage...
Defects along wellbore interfaces constitute potential pathways for CO2 to leak from geological stor...
Defects along wellbore interfaces constitute potential pathways for CO<sub>2</sub> to leak from geol...
Debonding at casing-cement interfaces poses a leakage pathway risk that may compromise well integrit...
Debonding-defects at the interfaces between wellbore casing and cement are widely recognized as prov...
Seepage of CO2 along wellbores presents a containment risk for geological storage, particularly if p...
Carbon Capture and Storage (CCS), involving the capture of CO2 at large point sources, such as power...
Carbon Capture and Storage (CCS), involving the capture of CO2 at large point sources, such as power...
AbstractWells remain inadequately studied with respect to the probability and rate of leakage in geo...
The risk of CO2 leakage from damaged wellbore is identified as a critical issue for the feasibility ...
International audienceThe risk of CO 2 leakage from damaged wellbore is identified as a critical iss...
International audienceAssessing the possibility of CO2 leakage is one of the major challenges for ge...
AbstractWellbore integrity is one of the key performance criteria in the geological storage of CO2. ...
AbstractSuccessful long-term geological storage of carbon dioxide (CO2) to reduce increasing atmosph...
[1] The interaction between wellbore cement and CO2 has the potential to alter cement properties and...
Abstract Fractures and defects in wellbore cement can lead to increased possibilities of CO2 leakage...