Mineral carbonation is an innovative approach to carbon dioxide (CO2) sequestration that involves the reaction of CO2 with naturally occurring minerals to form stable carbonates. This process not ...

The oceans hide a well-kept secret: natural mechanisms that trap organic carbon in their depths ... These findings, published in Nature Geoscience, could shake up our approach to carbon sequestration.

Our approach is to focus on process-related CO 2 emissions that account for 60 percent of the industry's CO 2 emissions, and to develop a carbon recycling system based on performing mineral ...

The most famous greenhouse gas, carbon dioxide (CO 2), can react with some ... This potential for critical mineral recovery makes olivine-rich reservoirs an interesting target for CO 2 mineralization.

These blooms, which span hundreds of square miles, absorb vast amounts of carbon dioxide annually—about 150 billion tons. However, when the blooms die, the organic carbon they capture is mostly ...

Fortunately, climate change is solvable. We have the technologies. We have the science. We now need the leadership—and the courage to change course. Carbon dioxide and other heat-trapping gases are ...