Journal article
Modelling CO2 plume spreading in highly heterogeneous rocks with anisotropic, rate-dependent saturation functions: A field-data based numeric simulation study of Otway
Q Shao, M Boon, AA Youssef, K Kurtev, SM Benson, SK Matthai
International Journal of Greenhouse Gas Control | ELSEVIER SCI LTD | Published : 2022
Abstract
In this field-data-based simulation study, we apply novel rate-dependent, anisotropic saturation functions curve-fitted to match the flow behaviour of laminated sand- and siltstones from the CO2CRC's Otway International Test Centre (Australia), in well-spot simulations of plume spreading at the site. Scenario analysis is conducted by performing simulations on various stochastic model realisations under different conditions, investigating what controls plume migration. Results indicate that high-permeability streaks and intraformational baffles determine plume spreading in flat-lying stratigraphy. Displacement of CO2 is unstable and focussed by high-permeability streaks, leading to multi-laye..
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Funding Acknowledgements
This research was conducted in the frame of GeoCquest, a BHP-funded collaborative research project of the University of Melbourne (Australia) , Cambridge University (UK) , and Stanford University (USA) as partners. The authors would like to thank CO2CRC for giving access to data from its Otway International Test Centre.