Presenter Information

Juerg Matter, Columbia University

Location

Cherry Auditorium Kirk Hall

Start Date

3-31-2011 1:00 PM

Description

The storage of large volumes of carbon dioxide (CO2) in deep geological formations is one of the most promising climate mitigation options. The long-term retention time and environmental safety of CO2 storage are defined by the interaction of the injected CO2 with formation fluids and rocks. Finding storage solutions that are permanent, thermodynamically stable and environmentally benign would be desirable. Today, underground storage of CO2 is being conducted in depleted oil and gas reservoirs or in deep saline aquifers. To meet the potentially dramatic increase in demand for storage of CO2, unconventional formations and storage concepts must be explored.

Storage in unconventional formations includes injection of CO2 into formations with particularly favorable containment properties. When injected into basalt or mantle peridotite, CO2 is expected to react with the calcium, magnesium silicate minerals of these rocks to form carbonate precipitate, permanently fixing the CO2 at depth.

This talk aims to provide an overview of unconventional CO2 capture and storage techniques in geologic reservoirs with focus on on-going pilot CO2 injection and storage studies in Iceland and the Sultanate of Oman. In the CarbFix pilot project in Iceland, we developed a storage approach that accelerates the mineral carbonation in basaltic rocks. Approximately 2,200 tons of CO2 from a geothermal power plant are injected fully dissolved in water into a permeable basalt formation in SW Iceland for the purpose of permanent storage. In the Sultanate of Oman, we study the natural carbonation of mantle peridotites as an analog for mineral carbonation, and evaluate the feasibility of engineering such a system.

Comments

Downloadable file is a PDF of the original event flier.

COinS
 
Mar 31st, 1:00 PM

Permanent Carbon Capture and Storage in Geologic Reservoirs via Mineral Carbonation

Cherry Auditorium Kirk Hall

The storage of large volumes of carbon dioxide (CO2) in deep geological formations is one of the most promising climate mitigation options. The long-term retention time and environmental safety of CO2 storage are defined by the interaction of the injected CO2 with formation fluids and rocks. Finding storage solutions that are permanent, thermodynamically stable and environmentally benign would be desirable. Today, underground storage of CO2 is being conducted in depleted oil and gas reservoirs or in deep saline aquifers. To meet the potentially dramatic increase in demand for storage of CO2, unconventional formations and storage concepts must be explored.

Storage in unconventional formations includes injection of CO2 into formations with particularly favorable containment properties. When injected into basalt or mantle peridotite, CO2 is expected to react with the calcium, magnesium silicate minerals of these rocks to form carbonate precipitate, permanently fixing the CO2 at depth.

This talk aims to provide an overview of unconventional CO2 capture and storage techniques in geologic reservoirs with focus on on-going pilot CO2 injection and storage studies in Iceland and the Sultanate of Oman. In the CarbFix pilot project in Iceland, we developed a storage approach that accelerates the mineral carbonation in basaltic rocks. Approximately 2,200 tons of CO2 from a geothermal power plant are injected fully dissolved in water into a permeable basalt formation in SW Iceland for the purpose of permanent storage. In the Sultanate of Oman, we study the natural carbonation of mantle peridotites as an analog for mineral carbonation, and evaluate the feasibility of engineering such a system.