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Carbon Mineralization in Basaltic Rocks: Mechanisms, Applications, and Prospects for Permanent CO2 Sequestration

E.A. Owusu, Jiyue Wu, Elizabeth Akonobea Appiah, William Apau Marfo, Na Yuan, Xiaojing Ge, Kegang Ling, Sai Wang

2025Energies15 citationsDOIOpen Access PDF

Abstract

Basalt is prevalent in the Earth’s crust and makes up about 90% of all volcanic rocks. The earth is warming at an alarming rate, and there is a search for a long-term solution to this problem. Geologic carbon storage in basalt offers an effective and durable solution for carbon dioxide sequestration. Basaltic rocks are widely used for road and building construction and insulation, soil amendment, and in carbon storage. There is a need to understand the parameters that affect this process in order to achieve efficient carbon mineralization. This review systematically analyzes peer-reviewed studies and project reports published over the past two decades to assess the mechanisms, effectiveness, and challenges of carbon mineralization in basaltic formations. Key factors such as mineral composition, pH, temperature and pressure are evaluated for their impact on mineral dissolution and carbonate precipitation kinetics. The presence of olivine and basaltic glass also accelerates cation release and carbonation rates. The review includes case studies from major field projects (e.g., CarbFix and Wallula) and laboratory experiments to illustrate how mineralization performs in different geological environments. It is essential to maximize mineralization kinetics while ensuring the formation of stable carbonate phases in order to achieve efficient and permanent carbon dioxide storage in basaltic rock.

Topics & Concepts

Carbon sequestrationMineralization (soil science)BasaltGeochemistryEnvironmental scienceGeologyEarth scienceCarbon dioxideChemistrySoil scienceOrganic chemistrySoil waterCO2 Sequestration and Geologic InteractionsMethane Hydrates and Related PhenomenaGeological and Geochemical Analysis