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Improving basalt wettability to de-risk CO2 geo-storage in basaltic formations

Stefan Iglauer, Ahmed Al‐Yaseri

2021ADVANCES IN GEO-ENERGY RESEARCH33 citationsDOIOpen Access PDF

Abstract

CO2 geo-storage in basaltic formations has recently been identified as a viable option to rapidly dispose large quantities of CO2 , hence mitigating anthropogenic CO2 emissions. However, it has been shown that basalt is weakly water-wet or intermediate-wet at typical storage conditions, which reduces capillary trapping capacities and increases lateral and vertical spreading of the CO2 plume; and these effects increase project risk. We thus propose here to prime basalt surfaces with anionic surfactant (here we used sodium dodecyl benzene sulfonate), and demonstrate that such priming is highly efficient, and renders the basalt completely water-wet even at high pressures and minute sodium dodecyl benzene sulfonate concentrations. Such a wettability alteration can therefore significantly de-risk storage projects. This work aids in the improvement of CO2 storage in basaltic formations and supports implementation of industrial-scale CO2 geo-sequestration and climate change mitigation. Cited as: Iglauer, S., Al-Yaseri, A. Improving basalt wettability to de-risk CO2 geo-storage in basaltic formations. Advances in Geo-Energy Research, 2021, 5(3): 347-350, doi: 10.46690/ager.2021.03.09

Topics & Concepts

BasaltWettingFlood basaltEnvironmental scienceGeochemistryGeologyMaterials scienceComposite materialTectonicsPaleontologyVolcanismCO2 Sequestration and Geologic InteractionsCarbon Dioxide Capture TechnologiesEnhanced Oil Recovery Techniques
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