Print Email Facebook Twitter Capillary-Driven Transport of Dissolved Salt to the Drying Zone During CO2 Injection in Homogeneous and Layered Porous Media Title Capillary-Driven Transport of Dissolved Salt to the Drying Zone During CO2 Injection in Homogeneous and Layered Porous Media Author Roels, S.M. El Chatib, N. Nicolaides, C. Zitha, P.L.J. Faculty Civil Engineering and Geosciences Department Geoscience & Engineering Date 2016-01-11 Abstract A major challenge of CO2 injection into saline aquifers is the risk of formation clogging due to salt precipitation. Capillary-driven flow of brine can provide a continuous transport of dissolved salt toward the dry zone around the injection well where it ultimately precipitates due to evaporation. In this study, core flooding experiments were performed in homogeneous coarse-textured cores and in layered cores consisting of a coarse-textured layer overlying a fine-textured layer. CO2 was injected through a well in the upper part of the cores, and the bottom parts functioned as brine sources. Impairment in injectivity was found due to accumulation of precipitated salt caused by capillary-driven flow from the brine sources to the upper dryer region. Compared to flow domains without a brine source, we found that capillary-driven upward flow at first prevents complete clogging because the porous medium remains wet, but eventually leads to a more severe clogging of the entire domain. The results show that after sufficient dry-out, a coarse-textured injection layer can draw brine from an underlying fine-textured layer by capillary forces. A connected fine-textured layer can therefore contribute to salt precipitation and clogging of the injection layer. Subject CO2sequestrationsalt precipitationcore floodingcapillary-driven flow To reference this document use: http://resolver.tudelft.nl/uuid:576a66ab-9fe2-4307-8a98-0ae9a94b876f Publisher Springer ISSN 0169-3913 Source https://doi.org/10.1007/s11242-015-0601-y Source Transport in Porous Media, 111 (2), 2016 Part of collection Institutional Repository Document type journal article Rights © 2016 The Author(s)This article is published with open access at Springerlink.com Files PDF Roels_2016.pdf 1.68 MB Close viewer /islandora/object/uuid:576a66ab-9fe2-4307-8a98-0ae9a94b876f/datastream/OBJ/view