TY - JOUR
T1 - Geological modelling of the Triassic Stuttgart Formation at the Ketzin CO2 storage site, Germany
AU - Norden, Ben
AU - Frykman, Peter
N1 - Funding Information:
The research described in this paper is funded by the European Commission (Sixth and Seventh Framework Program) , two German Ministries— the Federal Ministry of Economics and Technology and the Federal Ministry of Education and Research —and industrial partners (VNG, Vattenfall, RWE, Statoil, Dillinger Hüttenwerke, Saarstahl, OMV) which are thanked for supporting this study ( www.co2ketzin.de ). One anonymous reviewer and especially Jan Tveranger are thanked for their valuable comments. This is Geotechnologien paper number GEOTECH-1999.
PY - 2013/11
Y1 - 2013/11
N2 - At Ketzin, about 25. km west of Berlin (Germany), the saline aquifer of the Triassic Stuttgart Formation is used for a carbon dioxide storage research project. The formation is lithologically very heterogeneous, reflecting a complex fluviatile facies distribution pattern. We focused on the development of a primary geological reservoir model as commonly employed for dynamic modelling during the planning and early injection stages of a storage project. Due to the need to capture the complex geometrical structure of the Stuttgart Formation, despite limited availability of exploration data, stochastic modelling techniques were employed. Firstly, we modelled the facies architecture of the reservoir and, secondly, assigned porosity and permeability values to the facies types included in the model. Petrophysical parameters for each facies type were quantified using site-specific porosity histograms and related permeability functions. The comparison of dynamic flow simulation results and well-test interpretations, and furthermore with the first observed monitoring data, helped to focus the modelling work and to adjust monitoring plans. Modelling is understood as an iterative process, both with respect to data arrival and progressively improving the understanding of the reservoir, but also with respect to the problem which the model is being designed to address.
AB - At Ketzin, about 25. km west of Berlin (Germany), the saline aquifer of the Triassic Stuttgart Formation is used for a carbon dioxide storage research project. The formation is lithologically very heterogeneous, reflecting a complex fluviatile facies distribution pattern. We focused on the development of a primary geological reservoir model as commonly employed for dynamic modelling during the planning and early injection stages of a storage project. Due to the need to capture the complex geometrical structure of the Stuttgart Formation, despite limited availability of exploration data, stochastic modelling techniques were employed. Firstly, we modelled the facies architecture of the reservoir and, secondly, assigned porosity and permeability values to the facies types included in the model. Petrophysical parameters for each facies type were quantified using site-specific porosity histograms and related permeability functions. The comparison of dynamic flow simulation results and well-test interpretations, and furthermore with the first observed monitoring data, helped to focus the modelling work and to adjust monitoring plans. Modelling is understood as an iterative process, both with respect to data arrival and progressively improving the understanding of the reservoir, but also with respect to the problem which the model is being designed to address.
KW - Channel deposit
KW - CO storage
KW - Facies modelling
KW - Fluvial environment
KW - Stochastic modelling
UR - http://www.scopus.com/inward/record.url?scp=84890164827&partnerID=8YFLogxK
U2 - 10.1016/j.ijggc.2013.04.019
DO - 10.1016/j.ijggc.2013.04.019
M3 - Article
SN - 1750-5836
VL - 19
SP - 756
EP - 774
JO - International Journal of Greenhouse Gas Control
JF - International Journal of Greenhouse Gas Control
ER -