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Session 5. Oral Presentation for: Building a carbon dioxide storage portfolio for the Barrow-Dampier sub-basins through regional screening – an integrated geoscience approach

David Barlass A *
+ Author Affiliations
- Author Affiliations

A SLB, Perth, WA, Australia.




David Barlass is a geoscientist with SLB in Australia based in Perth from the University of Edinburgh and an MSc. in Structural Geology with Geophysics from the University of Leeds.

* Correspondence to: DBarlass@slb.com

Australian Energy Producers Journal 64 https://doi.org/10.1071/EP23312
Published: 7 June 2024

© 2024 The Author(s) (or their employer(s)). Published by CSIRO Publishing on behalf of Australian Energy Producers.

Abstract

Presented on Tuesday 21 May: Session 5

Safe geological carbon dioxide (CO2) storage (GCS) requires rocks with suitable injectivity, capacity and sealing properties to ensure secure long-term containment of injected CO2. A regional understanding of the subsurface is essential to determine the potential for GCS of a basin and to select target sites. This is best addressed by integrating the basin’s tectono-stratigraphic evolution, its gross depositional environment, and its hydrodynamic, thermal and stress regimes. A basin-scale GCS assessment for the Barrow-Dampier sub-basins was conducted by Geoscience Australia and SLB. The objective of the study is to high-grade geological intervals and sites for potential GCS and to understand potential storage capacity and key risk factors. Stratigraphic and structural mapping of key storage intervals was performed using the reprocessed seismic volume and well database associated with the project. Analysis of critically stressed faults was used to estimate the likelihood of reactivation based on the far-field regional stress field and fault mechanical properties. Pressure, temperature, porosity, permeability, and water geochemistry data have been screened for >500 wells for assessing the storage unit intervals and predicting the hydrodynamic regime. Calibrated 2D basin models provide information on the regional pressure-temperature regime, porosity/permeability distribution, and sealing effectiveness. Potentiometric surface maps for the aquifer systems inform the distribution of potential CO2 plume migration. Results of this integrated regional basin study are used to quantify the risk of identified storage containers and to map the chance of success for GCS at a regional scale. The project results are publicly available via NOPIMS.

To access the Oral Presentation click the link on the right. To read the full paper click here

Keywords: Barrow, Barrow Group, carbon capture and storage, carbon dioxide storage, Dampier, depleted fields, GCS screening, Northern Carnarvon Basin, saline aquifers, sequestration.

Biographies

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David Barlass is a geoscientist with SLB in Australia based in Perth from the University of Edinburgh and an MSc. in Structural Geology with Geophysics from the University of Leeds.