Tuesday, June 30, 2026
Science

How rocks trap CO₂ faster: Water-driven pathway could speed long-term carbon storage

Rocks can bind carbon dioxide—and much faster than previously thought. For a long time, it was assumed that the transformation of CO2 into carbonate rock depends on very slow, time-consuming processes. According to that view, the binding of CO2 injected industrially into the ground would take centur...

How rocks trap CO₂ faster: Water-driven pathway could speed long-term carbon storage
Image: Phys.org
Rocks can bind carbon dioxide—and much faster than previously thought. For a long time, it was assumed that the transformation of CO2 into carbonate rock depends on very slow, time-consuming processes. According to that view, the binding of CO2 injected industrially into the ground would take centuries. However, practical observations and theoretical calculations suggested that there may also be a much faster route from CO2 to carbonate, mediated by water acting somewhat like a catalyst.

Originally published at Phys.org

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