Get 20M+ Full-Text Papers For Less Than $1.50/day. Start a 14-Day Trial for You or Your Team.

Learn More →

CO 2 wettability of seal and reservoir rocks and the implications for carbon geo‐sequestration

CO 2 wettability of seal and reservoir rocks and the implications for carbon geo‐sequestration We review the literature data published on the topic of CO2 wettability of storage and seal rocks. We first introduce the concept of wettability and explain why it is important in the context of carbon geo‐sequestration (CGS) projects, and review how it is measured. This is done to raise awareness of this parameter in the CGS community, which, as we show later on in this text, may have a dramatic impact on structural and residual trapping of CO2. These two trapping mechanisms would be severely and negatively affected in case of CO2‐wet storage and/or seal rock. Overall, at the current state of the art, a substantial amount of work has been completed, and we find that: Sandstone and limestone, plus pure minerals such as quartz, calcite, feldspar, and mica are strongly water wet in a CO2‐water system. Oil‐wet limestone, oil‐wet quartz, or coal is intermediate wet or CO2 wet in a CO2‐water system. The contact angle alone is insufficient for predicting capillary pressures in reservoir or seal rocks. The current contact angle data have a large uncertainty. Solid theoretical understanding on a molecular level of rock‐CO2‐brine interactions is currently limited. In an ideal scenario, all seal and storage rocks in CGS formations are tested for their CO2 wettability. Achieving representative subsurface conditions (especially in terms of the rock surface) in the laboratory is of key importance but also very challenging. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Water Resources Research Wiley

CO 2 wettability of seal and reservoir rocks and the implications for carbon geo‐sequestration

Loading next page...
 
/lp/wiley/co-2-wettability-of-seal-and-reservoir-rocks-and-the-implications-for-8gbtN7YUi1

References (219)

Publisher
Wiley
Copyright
© 2015. American Geophysical Union. All Rights Reserved.
ISSN
0043-1397
eISSN
1944-7973
DOI
10.1002/2014WR015553
Publisher site
See Article on Publisher Site

Abstract

We review the literature data published on the topic of CO2 wettability of storage and seal rocks. We first introduce the concept of wettability and explain why it is important in the context of carbon geo‐sequestration (CGS) projects, and review how it is measured. This is done to raise awareness of this parameter in the CGS community, which, as we show later on in this text, may have a dramatic impact on structural and residual trapping of CO2. These two trapping mechanisms would be severely and negatively affected in case of CO2‐wet storage and/or seal rock. Overall, at the current state of the art, a substantial amount of work has been completed, and we find that: Sandstone and limestone, plus pure minerals such as quartz, calcite, feldspar, and mica are strongly water wet in a CO2‐water system. Oil‐wet limestone, oil‐wet quartz, or coal is intermediate wet or CO2 wet in a CO2‐water system. The contact angle alone is insufficient for predicting capillary pressures in reservoir or seal rocks. The current contact angle data have a large uncertainty. Solid theoretical understanding on a molecular level of rock‐CO2‐brine interactions is currently limited. In an ideal scenario, all seal and storage rocks in CGS formations are tested for their CO2 wettability. Achieving representative subsurface conditions (especially in terms of the rock surface) in the laboratory is of key importance but also very challenging.

Journal

Water Resources ResearchWiley

Published: Jan 1, 2015

There are no references for this article.