CO2 wettability of caprocks: Implications for structural storage capacity and containment security

Stefan Iglauer; Ahmed Zarzor Al-Yaseri; Reza Rezaee; Maxim Lebedev

doi:10.1002/2015GL065787

CO₂ wettability of caprocks: Implications for structural storage capacity and containment security

Stefan Iglauer^*, Ahmed Zarzor Al-Yaseri, Reza Rezaee, Maxim Lebedev

^*Corresponding author for this work

Curtin University

Research output: Contribution to journal › Article › peer-review

229 Citations (Scopus)

Abstract

Structural trapping, the most important CO₂ geostorage mechanism during the first decades of a sequestration project, hinges on the traditional assumption that the caprock is strongly water wet. However, this assumption has not yet been verified; and it is indeed not generally true as we demonstrate here. Instead, caprock can be weakly water wet or intermediate wet at typical storage conditions; and water wettability decreases with increasing pressure or temperature. Consequently, a lower storage capacity can be inferred for structural trapping in such cases.

Original language	English
Pages (from-to)	9279-9284
Number of pages	6
Journal	Geophysical Research Letters
Volume	42
Issue number	21
DOIs	https://doi.org/10.1002/2015GL065787
Publication status	Published - 16 Nov 2015
Externally published	Yes

Keywords

CO geosequestration
storage capacity
structural trapping
wettability

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10.1002/2015GL065787

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abstract = "Structural trapping, the most important CO2 geostorage mechanism during the first decades of a sequestration project, hinges on the traditional assumption that the caprock is strongly water wet. However, this assumption has not yet been verified; and it is indeed not generally true as we demonstrate here. Instead, caprock can be weakly water wet or intermediate wet at typical storage conditions; and water wettability decreases with increasing pressure or temperature. Consequently, a lower storage capacity can be inferred for structural trapping in such cases.",

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AU - Iglauer, Stefan

AU - Al-Yaseri, Ahmed Zarzor

AU - Rezaee, Reza

AU - Lebedev, Maxim

PY - 2015/11/16

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N2 - Structural trapping, the most important CO2 geostorage mechanism during the first decades of a sequestration project, hinges on the traditional assumption that the caprock is strongly water wet. However, this assumption has not yet been verified; and it is indeed not generally true as we demonstrate here. Instead, caprock can be weakly water wet or intermediate wet at typical storage conditions; and water wettability decreases with increasing pressure or temperature. Consequently, a lower storage capacity can be inferred for structural trapping in such cases.

AB - Structural trapping, the most important CO2 geostorage mechanism during the first decades of a sequestration project, hinges on the traditional assumption that the caprock is strongly water wet. However, this assumption has not yet been verified; and it is indeed not generally true as we demonstrate here. Instead, caprock can be weakly water wet or intermediate wet at typical storage conditions; and water wettability decreases with increasing pressure or temperature. Consequently, a lower storage capacity can be inferred for structural trapping in such cases.

KW - CO geosequestration

KW - storage capacity

KW - structural trapping

KW - wettability

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ER -

CO₂ wettability of caprocks: Implications for structural storage capacity and containment security

Abstract

Keywords

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