Litcius/Paper detail

Carbon Mineralization in Fractured Mafic and Ultramafic Rocks: A Review

Haylea Nisbet, Giuseppe Buscarnera, J. William Carey, Maohong Chen, Emmanuel Detournay, Haiying Huang, Jeffrey D. Hyman, Peter K. Kang, Qinjun Kang, Joseph F. Labuz, W. Li, Juerg Matter, Chelsea W. Neil, G. Srinivasan, Matthew Sweeney, Vaughan R. Voller, Weipeng Yang, Y. Yang, Hari Viswanathan

2024Reviews of Geophysics75 citationsDOIOpen Access PDF

Abstract

Abstract Mineral carbon storage in mafic and ultramafic rock masses has the potential to be an effective and permanent mechanism to reduce anthropogenic CO 2 . Several successful pilot‐scale projects have been carried out in basaltic rock (e.g., CarbFix, Wallula), demonstrating the potential for rapid CO 2 sequestration. However, these tests have been limited to the injection of small quantities of CO 2 . Thus, the longevity and feasibility of long‐term, large‐scale mineralization operations to store the levels of CO 2 needed to address the present climate crisis is unknown. Moreover, CO 2 mineralization in ultramafic rocks, which tend to be more reactive but less permeable, has not yet been quantified. In these systems, fractures are expected to play a crucial role in the flow and reaction of CO 2 within the rock mass and will influence the CO 2 storage potential of the system. Therefore, consideration of fractures is imperative to the prediction of CO 2 mineralization at a specific storage site. In this review, we highlight key takeaways, successes, and shortcomings of CO 2 mineralization pilot tests that have been completed and are currently underway. Laboratory experiments, directed toward understanding the complex geochemical and geomechanical reactions that occur during CO 2 mineralization in fractures, are also discussed. Experimental studies and their applicability to field sites are limited in time and scale. Many modeling techniques can be applied to bridge these limitations. We highlight current modeling advances and their potential applications for predicting CO 2 mineralization in mafic and ultramafic rocks.

Topics & Concepts

Ultramafic rockMaficGeologyGeochemistryMineralization (soil science)MineralCarbon fibersPetrologySoil scienceChemistrySoil waterMaterials scienceComposite numberOrganic chemistryComposite materialCO2 Sequestration and Geologic InteractionsHydrocarbon exploration and reservoir analysisMethane Hydrates and Related Phenomena