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Minireview of Microscopic CO<sub>2</sub> Interactions with Fluids and Minerals in Shale: Advances and Outlook

Zengding Wang, Keli Ding, Tengyu Liu, Jun Yao, Hai Sun, Yongfei Yang, Lei Zhang, Wenhui Song, Kaiqiang Zhang, Junjie Zhong

2023Energy & Fuels20 citationsDOI

Abstract

Shale is featured by nanometer pores and ultralow permeability. Enhancing shale oil recovery after primary production is challenging as a result of the low injectivity of water. CO 2 could be a promising injection fluid to enhance shale oil recovery for its high mobility in porous media and mixability with hydrocarbons. Fluid behaviors in the nanometer pores of shale reservoirs deviate from those in the micrometer pores of conventional reservoirs. The previous understanding of CO 2 displacement and sequestration in conventional reservoirs is not completely applicable to shale reservoirs. In this review, we analyzed research advances in CO 2 interactions with reservoir fluids and shale rocks at the microscopic level. We delineated recent progress in interpreting phase behavior, mass transfer of the CO 2 –oil system confined in nanometer pores, and reshaping of CO 2 -induced mineralization in shale porous media. We also discussed limitations and future directions for studying CO 2 injection in shale reservoirs, from the experimental scope, theoretical analysis, and field application.

Topics & Concepts

Oil shalePetroleum engineeringEnhanced oil recoveryGeologyShale oilPorous mediumPermeability (electromagnetism)Mineralization (soil science)PorosityOil fieldChemistryGeotechnical engineeringSoil scienceMembraneBiochemistryPaleontologySoil waterHydrocarbon exploration and reservoir analysisCO2 Sequestration and Geologic InteractionsEnhanced Oil Recovery Techniques