Reservoir characterization and multiphase flow property in the upper Minnelusa sandstone: Implication for geological carbon storage

Zuhao Kou, Heng Wang, Vladimir Alvarado

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Abstract


This report summarizes the reservoir characterization [Wang et al., J. Hydrol., 2022] and multiphase flow property [Kou et al., J. Hydrol., 2021] in a target deep saline aquifer, upper Minnelusa sandstone in Wyoming. Multiscale petrophysical characterization and flow unit classification were carried out to identify two different facies groups: cross-bedded and massive sandstone. Based on the rock typing results, two representative core samples were selected accordingly to conduct coreflooding experiments. Results illustrate that the sub-core scale heterogeneity significantly affects CO2 -brine multiphase flow properties. As a result, the subcore scale heterogeneity should be considered during CO2 injection to reduce the uncertainties in storage and fluid flow.

Cited as: Kou, Z., Wang, H., Alvarado, V. Reservoir characterization and multiphase flow property in the upper Minnelusa sandstone: Implication for geological carbon storage. Advances in Geo-Energy Research, 2022, 6(6): 535-536. https://doi.org/10.46690/ager.2022.06.10


Keywords


Reservoir characterization, multiphase flow property, geological carbon storage

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References


Benson, S. M., Cole, D. R. CO2 sequestration in deep sedimentary formations. Elements, 2008, 4(5): 325-331.

Guo, R., Sun, H., Zhao, Q., et al. A novel experimental study on density-driven instability and convective dissolution in porous media. Geophysical Research Letter, 2021, 48(23): e2021GL095619.

Kou, Z., Wang, H., Alvarado, V., et al. Impact of subcore scale heterogeneity on CO2 /brine multiphase flow for geological carbon storage in the upper Minnelusa sandstones. Journal of Hydrology, 2021, 599: 126481.

Wang, H., Kou, Z., Bagdonas, D. A., et al. Multiscale petrophysical characterization and flow unit classification of the Minnelusa eolian sandstones. Journal of Hydrology, 2022, 607: 127466.




DOI: https://doi.org/10.46690/ager.2022.06.10

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