Chevron explores underground carbon capture and storage – SAFETY4SEA
This week, Chevron presented it’s take on carbon capture and storage (CCS) through the practice of storing it permanently underground to keep it from reaching the atmosphere.
Carbon capture and storage (CCS) is an important part of lowering the carbon intensity of major industries. Keeping CO2 out of the atmosphere and having it permanently stored underground can be a significant factor in achieving the ambitions of the Paris Agreement, Chevron notes. According to the Intergovernmental Panel on Climate Change, large-scale CCS technologies are instrumental in achieving such goals.
How it works
There are specific characteristics in a carbon storage site, such as whether it’s cost-effective to inject CO2, confidence in the geology to contain it, and the ability to monitor it.
A minimum depth of 800 meters: At this depth, the CO2 compresses into a denser, “supercritical” fluid. Many times more CO2 in the same amount of space can be stored because of the increased density. Reservoirs and pores: Thick reservoirs with lots of granular fragments and a high capacity for flow, such as sands from ancient, buried beaches. The CO2 flows between the grains in what is known as pore space and becomes trapped there. Impermeable caprock: This naturally occurring barrier is a thick sequence of rocks with low or no flow capacity that