Multiscale Stratigraphic Reservoir Characterization for Flow and Storage of CO2: Roadmap for Modelling and Quantitative Understanding

G. Hampson; A. Martinius; M. Jackson; S. Krevor; J. Storms; D. Voskov; H. Hajibeygi; S. Geiger

doi:10.3997/2214-4609.2023101449

Multiscale Stratigraphic Reservoir Characterization for Flow and Storage of CO2: Roadmap for Modelling and Quantitative Understanding

G. Hampson, A. Martinius, M. Jackson, S. Krevor, J. Storms, D. Voskov, H. Hajibeygi, S. Geiger

Research output: Contribution to conference › Paper › peer-review

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Abstract

This poster outlines a hierarchical, multiscale modelling approach that is adapted from proven hydrocarbon reservoir characterization workflows to determine which 3D sedimentological and stratigraphic heterogeneity types at which temporal and spatial scales and in which configurations are most important for successful long-term CO2 storage. The approach is particularly in saline aquifers that are data-poor but have the potential to store large CO2 volumes. It uses the Representative Element Volume (REV) concept and associated upscaling methodology to characterise sedimentological heterogeneity types, and it leverages novel modelling tools that facilitate rapid model construction and prototyping, geometrically accurate representation of key geological heterogeneities in models, and computationally efficient simulation of all CO2 trapping mechanisms over relevant spatial and temporal scales.

Original language	English
Number of pages	5
DOIs	https://doi.org/10.3997/2214-4609.2023101449
Publication status	Published - 2023
Event	84th EAGE ANNUAL Conference and Exhibition 2023 - Vienna, Austria Duration: 5 Jun 2023 → 8 Jun 2023 Conference number: 84

Conference

Conference	84th EAGE ANNUAL Conference and Exhibition 2023
Abbreviated title	EAGE 2023
Country/Territory	Austria
City	Vienna
Period	5/06/23 → 8/06/23

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Multiscale Stratigraphic Reservoir Characterization for Flow and Storage of CO2: Roadmap for Modelling and Quantitative UnderstandingFinal published version, 610 KB

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Hampson, G., Martinius, A., Jackson, M., Krevor, S., Storms, J., Voskov, D., Hajibeygi, H., & Geiger, S. (2023). Multiscale Stratigraphic Reservoir Characterization for Flow and Storage of CO2: Roadmap for Modelling and Quantitative Understanding. Paper presented at 84th EAGE ANNUAL Conference and Exhibition 2023, Vienna, Austria. https://doi.org/10.3997/2214-4609.2023101449

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abstract = "This poster outlines a hierarchical, multiscale modelling approach that is adapted from proven hydrocarbon reservoir characterization workflows to determine which 3D sedimentological and stratigraphic heterogeneity types at which temporal and spatial scales and in which configurations are most important for successful long-term CO2 storage. The approach is particularly in saline aquifers that are data-poor but have the potential to store large CO2 volumes. It uses the Representative Element Volume (REV) concept and associated upscaling methodology to characterise sedimentological heterogeneity types, and it leverages novel modelling tools that facilitate rapid model construction and prototyping, geometrically accurate representation of key geological heterogeneities in models, and computationally efficient simulation of all CO2 trapping mechanisms over relevant spatial and temporal scales.",

author = "G. Hampson and A. Martinius and M. Jackson and S. Krevor and J. Storms and D. Voskov and H. Hajibeygi and S. Geiger",

year = "2023",

doi = "10.3997/2214-4609.2023101449",

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Hampson, G, Martinius, A, Jackson, M, Krevor, S, Storms, J , Voskov, D , Hajibeygi, H & Geiger, S 2023, 'Multiscale Stratigraphic Reservoir Characterization for Flow and Storage of CO2: Roadmap for Modelling and Quantitative Understanding', Paper presented at 84th EAGE ANNUAL Conference and Exhibition 2023, Vienna, Austria, 5/06/23 - 8/06/23. https://doi.org/10.3997/2214-4609.2023101449

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T1 - Multiscale Stratigraphic Reservoir Characterization for Flow and Storage of CO2

T2 - 84th EAGE ANNUAL Conference and Exhibition 2023

AU - Hampson, G.

AU - Martinius, A.

AU - Jackson, M.

AU - Krevor, S.

AU - Storms, J.

AU - Voskov, D.

AU - Hajibeygi, H.

AU - Geiger, S.

N1 - Conference code: 84

PY - 2023

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N2 - This poster outlines a hierarchical, multiscale modelling approach that is adapted from proven hydrocarbon reservoir characterization workflows to determine which 3D sedimentological and stratigraphic heterogeneity types at which temporal and spatial scales and in which configurations are most important for successful long-term CO2 storage. The approach is particularly in saline aquifers that are data-poor but have the potential to store large CO2 volumes. It uses the Representative Element Volume (REV) concept and associated upscaling methodology to characterise sedimentological heterogeneity types, and it leverages novel modelling tools that facilitate rapid model construction and prototyping, geometrically accurate representation of key geological heterogeneities in models, and computationally efficient simulation of all CO2 trapping mechanisms over relevant spatial and temporal scales.

AB - This poster outlines a hierarchical, multiscale modelling approach that is adapted from proven hydrocarbon reservoir characterization workflows to determine which 3D sedimentological and stratigraphic heterogeneity types at which temporal and spatial scales and in which configurations are most important for successful long-term CO2 storage. The approach is particularly in saline aquifers that are data-poor but have the potential to store large CO2 volumes. It uses the Representative Element Volume (REV) concept and associated upscaling methodology to characterise sedimentological heterogeneity types, and it leverages novel modelling tools that facilitate rapid model construction and prototyping, geometrically accurate representation of key geological heterogeneities in models, and computationally efficient simulation of all CO2 trapping mechanisms over relevant spatial and temporal scales.

U2 - 10.3997/2214-4609.2023101449

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M3 - Paper

Y2 - 5 June 2023 through 8 June 2023

ER -

Multiscale Stratigraphic Reservoir Characterization for Flow and Storage of CO2: Roadmap for Modelling and Quantitative Understanding

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