Natural carbon sequestration process into shallow sill intrusions &ndash; numerical modelling, land-based and IODP drilling investigations

Christophe Galerne; Hasenclever Jörg; Alban Cheviet; Woflgang Bach; Nils Lenhardt; Junli Zhang; Christin wiggers; Wolf-Achim Kahl; Achim Kopf; Martine Buatier; Annette Götz

doi:https://doi.org/10.5194/egusphere-egu24-9786

[Back] [Session ERE3.7]

EGU24-9786, updated on 08 Mar 2024

https://doi.org/10.5194/egusphere-egu24-9786

EGU General Assembly 2024

© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

Natural carbon sequestration process into shallow sill intrusions – numerical modelling, land-based and IODP drilling investigations

Christophe Galerne¹, Hasenclever Jörg², Alban Cheviet^3,4, Woflgang Bach^4,1, Nils Lenhardt⁵, Junli Zhang¹, Christin wiggers⁴, Wolf-Achim Kahl⁶, Achim Kopf¹, Martine Buatier⁴, and Annette Götz⁷

Christophe Galerne et al.

¹MARUM, Bremen, Germany (cgalerne@marum.de, wbach@uni-bremen.de, jzhang@marum.de, akopf@marum.de)
²Universität Hamburg, Hamburg, Germany (joerg.hasenclever@uni-hamburg.de)
³University of Bourgogne Franche-Comté, UMR 6249 Chrono-environment, Besancon, France (alban.cheviet@univ-fcomte.fr, martine.buatier@univ-fcomte.fr))
⁴University of Bremen, Bremen, Germany (wbach@uni-bremen.de, cwiggers@uni-bremen.de)
⁵University of Pretoria, South Africa (nils.lenhardt@up.ac.za)
⁶MAPEX - Center for Materials and Processes, University of Bremen, Bremen, Germany (wakahl@uni-bremen.de)
⁷Georg-August-University Göttingen, Göttingen, Germany (annetteelisabth.goetz@uni-goettingen.de)

Permanent carbonate mineralisation in basalt is a promising solution for Carbon Capture and Storage of anthropogenic greenhouse gases without the risk of leakage. While this process is known to occur at relatively low temperatures below 100°C, new research on Large Igneous Provinces (LIPs) and young rift basins suggests that much of the thermogenic gases mobilised during contact metamorphism can remain trapped and mineralised in the sills that mobilised them. This discovery is the result of two distinct drilling investigations on land (KARIN) and at sea (IODP Exp 385). It shows that basalts may not only trigger the sudden release of thermogenic gas, but also represent an important carbon sink. The two examples of carbonate trapping in sills presented here are from the Karoo and Guaymas basins. Results indicate that a large fraction of epimagmatic fluids charged with thermogenic gas systematically penetrated inside the sills during cooling. Our numerical solutions suggest that in both cases the higher permeability of the sill acquired during cooling and crystallisation compared to that of its host, ultimately dictates the fate of the thermogenic gas that accumulated in the igneous bodies.

How to cite: Galerne, C., Jörg, H., Cheviet, A., Bach, W., Lenhardt, N., Zhang, J., wiggers, C., Kahl, W.-A., Kopf, A., Buatier, M., and Götz, A.: Natural carbon sequestration process into shallow sill intrusions – numerical modelling, land-based and IODP drilling investigations, EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-9786, https://doi.org/10.5194/egusphere-egu24-9786, 2024.