SPE Symposium on Improved Oil Recovery 2008
DOI: 10.2118/113353-ms
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Capillary Alteration of Caprocks by Acid Gases

Abstract: The safety of acid gas geological storage is to a large extent controlled by the capillary properties of the caprock. This low-permeable (e.g., clayey) porous media usually saturated with water acts as a capillary barrier to the underlying stored acid gas, provided its water-wettability is preserved and water/acid gas interfacial tension (IFT) is high enough. The displacement or capillary breakthrough pressure, above which the stored acid gas intrudes into the caprock, is directly related to those two interfac… Show more

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Cited by 33 publications
(35 citation statements)
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“…Figure 2) indicating that the H 2 S has a higher affinity for the quartz surface than CO 2 . Our simulation corresponds to surfaces that are more hydrophobic than the ones investigated experimentally by Shah et al [48]. The reason for these differences has been advanced in our previous work, Iglauer et al [26].…”
Section: Contact Angle Results For the N 2 /Water/quartz Systemmentioning
confidence: 79%
See 1 more Smart Citation
“…Figure 2) indicating that the H 2 S has a higher affinity for the quartz surface than CO 2 . Our simulation corresponds to surfaces that are more hydrophobic than the ones investigated experimentally by Shah et al [48]. The reason for these differences has been advanced in our previous work, Iglauer et al [26].…”
Section: Contact Angle Results For the N 2 /Water/quartz Systemmentioning
confidence: 79%
“…H2S/H2O/quartz contact angle from simulations (this work) compared to experimental data from Shah et al[48] (limited results) and simulations of the CO2/H2O/quartz water contact angle from Iglauer et al Density profile of CO2 and H2S above the quartz surface; from the (50mol% H2S:50mol% CO2)/water/quartz contact angle simulation.…”
mentioning
confidence: 91%
“…The pH changes due to the presence of CO 2 can also potentially modify the mineral wettability, although this is still a controversial matter (see e.g. Chiquet et al, 2007;Shah et al, 2008;Fleury et al, this issue).…”
Section: Conditions For Gas Entry Into the Caprockmentioning
confidence: 99%
“…-a petrophysical characterization of caprock samples including diffusion measurements [7,9], and a study of the contact angle to evidence wettability changes [10,11];…”
Section: Introductionmentioning
confidence: 99%
“…The experimental setup and procedure used in a preliminary set of measurements [10] were improved and the final results show that the contact angles corresponding to the drainage process of interest (i.e., CO 2 displacing water) were barely affected by an increase in CO 2 pressure up to 14 MPa [11,22]. Hence, even though all types of rock substrates have not been tested, it can be reasonably assumed that dense CO 2 does not significantly alter the water-wettability of typical rock minerals, at least in the drainage process of CO 2 displacing water.…”
mentioning
confidence: 99%