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Emission Reductions Visual Presentation R07: Defining the geomechanical operating limits for subsurface CO2 storage

Simon Holford https://orcid.org/0000-0002-4524-8822 A *
+ Author Affiliations
- Author Affiliations

A School of Physics, Chemistry and Earth Sciences, University of Adelaide, Adelaide, SA, Australia.




Simon Holford is South Australian State Chair of Petroleum Geoscience in the Discipline of Earth Sciences, University of Adelaide. Simon has published ~130 papers on the prospectivity and tectonics of rifted margins, petroleum geomechanics and magmatism in basins. Simon has a PhD from the University of Birmingham and a BSc(Hons) from Keele University.

* Correspondence to: simon.holford@adelaide.edu.au

Australian Energy Producers Journal 64 https://doi.org/10.1071/EP23412
Published: 7 June 2024

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

Abstract

Emission Reductions Visual Presentation R07

Carbon capture and storage (CCS) is a critical component of proposed pathways to limit global warming, though considerable upscaling is required to meet emissions reduction targets. Quantifying and managing the risks of fault reactivation is a leading barrier to scaling global CCS projects from current levels of ~40 million tonnes of carbon dioxide(CO2) per year (to target levels of several gigatonnes of CO2 per year), because CO2 injection into reservoirs can result in increased pore-fluid pressure and temperature changes, which can reduce the strength of rocks and faults and induce brittle failure. This can result in induced seismicity, whilst hydraulic fracturing of seals could provide pathways for CO2 leakage. Consequently, identifying favourable geomechanical conditions (typically determined through data on pre-injection rock stress, mechanical and elastic properties, and pore-fluid pressures) to minimise deformation of reservoirs and seals represents a key challenge in the selection of safe and effective sites for CCS projects. Critically, however, such geomechanical data are typically spatially limited (i.e. restricted to wells) and mainly consist of pre-injection crustal stress orientation measurements, rather than a full 3D description of the stress tensor and related geomechanical properties. This paper reviews some key geomechanical issues and knowledge gaps (particularly those associated with data availability and limitations) that need to be understood to enable successful reservoir and seal management for CCS projects. We also highlight recent advances in multi-scale and dimensional geomechanical modelling approaches that can be used to assess sites for the secure storage of CO2 as well as other gases, including hydrogen.

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

Keywords: carbon capture and storage, CO2, faults, geomechanics, pore pressure, rock mechanics, stress.

Biographies

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Simon Holford is South Australian State Chair of Petroleum Geoscience in the Discipline of Earth Sciences, University of Adelaide. Simon has published ~130 papers on the prospectivity and tectonics of rifted margins, petroleum geomechanics and magmatism in basins. Simon has a PhD from the University of Birmingham and a BSc(Hons) from Keele University.