Abstract
The zeta potential is a measure of electric potential at the mineral-electrolyte interfaces. The zeta potential of natural sandstones depends on mineralogy, electrolyte pH, concentration, composition, amount of dissolved CO2, and temperature. We report for the first time the zeta potential measured on clayey sandstone comprising quartz, kaolinite, illite, albite and microcline saturated with NaCl solutions at supercritical CO2 conditions. Our results demonstrate that zeta potentials in clayey sandstone samples at supercritical CO2 conditions are significantly different from similar measurements conducted under ambient conditions and from those obtained with clean sandstones. Supercritical CO2 zeta potential remains negative but is influenced by clays and feldspars due to their significant presence and exposure to large pores, which yields less negative zeta potential compared to quartz, under identical conditions. Our results have significant implications to natural subsurface systems such as CO2 geo-sequestration sites, aquifers, geothermal sources and hydrocarbon reservoirs.
RAS ID
52354
Document Type
Journal Article
Date of Publication
1-1-2022
Volume
49
Issue
15
Funding Information
Spanish Ministry of Science, Innovation and Universities. Grant Number: BEAGAL18/00259
School
Centre for Sustainable Energy and Resources
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.
Publisher
Wiley
Recommended Citation
Hidayat, M., Sarmadivaleh, M., Derksen, J., Vega-Maza, D., Iglauer, S., & Vinogradov, J. (2022). Zeta potential of a natural clayey sandstone saturated with carbonated NaCl solutions at supercritical CO2 conditions. DOI: https://doi.org/10.1029/2022GL099277
Comments
Hidayat, M., Sarmadivaleh, M., Derksen, J., Vega‐Maza, D., Iglauer, S., & Vinogradov, J. (2022). Zeta potential of a natural clayey sandstone saturated with carbonated NaCl solutions at supercritical CO2 conditions. Geophysical Research Letters, 49(15), e2022GL099277. https://doi.org/10.1029/2022GL099277