If we can't get rid of CO2, the greenhouse gas that gets the most press, perhaps we can store it, say researchers.    Maybe even in rock form.     Carbon dioxide when mixed with water forms carbonic acid (also known as carbonated water or soda water), which can percolate through  rocks, dissolving some minerals and forming solid carbonates with them, thereby storing the carbon dioxide in rock form.

Sigurdur Gislason of the University of Iceland has been studying the possibility of sequestration of carbon dioxide (CO2) in basalt and presented his findings today to several thousand geochemists from around the world at the Goldschmidt Conference hosted by the University of Tennessee, Knoxville, and Oak Ridge National Laboratory.

Carbon sequestration is the most promising way to remove greenhouse gases on a depressingly short list of options.   While a better solution waits, Gislason leads an international team of scientists on the Carbfix Project, which aims at pumping carbon deep underground in southwest Iceland where it will mix with minerals and become rock. The project's goal is to find a storage solution that is long lasting, thermodynamically stable and environmentally benign. 

Hellisheidi Geothermal Power Plant is now hosting the pilot program. which involves capturing and separating flue gases there, transporting the gas, dissolving it in water, and injecting it at high pressures to a depth between 400 and 800 meters into a thick layer of basalt. Then he and his coworkers will verify and monitor the storage.

If successful, Gislason said, the experiment will be scaled up and can be used wherever carbon dioxide is emitted. Currently, carbon may be captured as a byproduct in processes such as petroleum refining. It can be stored in reservoirs, ocean water and mature oilfields. However, many experts fear that CO2 may leak over time.

Storage of CO2 as solid magnesium carbonates or calcium carbonates deep underground in basaltic rocks may provide a long-term and thermodynamically stable solution.