2021
DOI: 10.1021/acs.energyfuels.0c03726
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Effect of Geochemical Characteristics on Caprock Performance in Deep Saline Aquifers

Abstract: Sequestration of CO2 in deep saline aquifers has attracted positive attention from the scientific community as a mitigatory measure to reduce anthropogenic CO2 in the atmosphere. Caprock layers/zones, which are saturated with brine and CO2 at different degrees of saturation (DOSs), behave differently. Since the risk of CO2 back-migration through different zones in the caprock varies, the focus of this study is on the effects of injected CO2 on the mineralogical and mechanical behavior of caprock with different… Show more

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Cited by 13 publications
(5 citation statements)
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“… When selecting a well site, caprock integrity should be evaluated and its features should be clearly identified. Additionally, the geological evaluation, especially faults and fractures, is thoroughly explored to prevent any potential CO 2 migration path to the surface. , …”
Section: Challenges Gaps and Perspectivesmentioning
confidence: 99%
“… When selecting a well site, caprock integrity should be evaluated and its features should be clearly identified. Additionally, the geological evaluation, especially faults and fractures, is thoroughly explored to prevent any potential CO 2 migration path to the surface. , …”
Section: Challenges Gaps and Perspectivesmentioning
confidence: 99%
“…Si to Al Ratio. The Si/Al ratio is a key factor controlling GP properties through its impact on the network connectivity (Si−O−T, where T is Al or Si) and the degree of Si(OH) 4 and Al(OH) 4 emancipation. 27,78 In general, the Si content determines the condensation between Si−O−Si and Al−O−Si species and strongly influences late-age compressive strength of the material, while the Al content regulates a GP's type of network formation, framework, and setting time.…”
Section: System Chemistrymentioning
confidence: 99%
“…Carbon capture and storage (CCS), with storage in porous geological reservoirs of sedimentary origin, is considered a key technology for the mitigation of climate change. An important challenge for geological CO 2 storage is the integrity of the wells used during CO 2 -injection (as well as potential pre-existing wells). The main risk to the sealing integrity of these wells is leakage through the cement matrix or along the cement-formation and cement-steel interfaces, which could lead to the uncontrolled release of the injected CO 2 . In most CCS operations, CO 2 is injected to a depth of 800 m or greater, where required conditions for the supercritical state of CO 2 (scCO 2 ) are met (i.e., pressures greater than 7.38 MPa and temperatures above 31.04 °C).…”
Section: Introductionmentioning
confidence: 99%
“…Geological leakage problems mean that CO 2 mainly leaks through natural leakage pathways, which are not caused by human activities. , Figure shows that geological leakage problems mainly include CO 2 leaking across caprock through either natural fractures or faults, unconfined lateral migration, or volcanic and tectonic activities . CO 2 leaks through caprock mostly through the following three mechanisms.…”
Section: Co2 Leakage Problemsmentioning
confidence: 99%
“…50,51 Figure 2 shows that geological leakage problems mainly include CO 2 leaking across caprock through either natural fractures or faults, unconfined lateral migration, or volcanic and tectonic activities. 52 CO 2 leaks through caprock mostly through the following three mechanisms. First, CO 2 can migrate via fractures in the caprock caused by the compressible flow of free CO 2 gas and molecular diffusion.…”
Section: Co 2 Leakage Problemsmentioning
confidence: 99%