Rhode Island Subsurface Underground Carbon Dioxide Storage Lease and Agreement (with Landowner, Long Form)
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FAQ
Carbon dioxide (CO2) can be stored underground as a supercritical fluid. Supercritical CO2 means that the CO2 is at a temperature in excess of 31.1°C (88ºF) and a pressure in excess of 72.9 atm (about 1,057 psi); this temperature and pressure defines the critical point for CO2.
Carbon dioxide (CO2) can be stored underground as a supercritical fluid. Supercritical CO2 means that the CO2 is at a temperature in excess of 31.1°C (88ºF) and a pressure in excess of 72.9 atm (about 1,057 psi); this temperature and pressure defines the critical point for CO2.
Additionally, both CO2 and wastewater injection involve pumping high volumes into the earth, creating similar problems and risks; for instance, earthquakes. Already, we've seen earthquakes at CO2 injection sites almost strong enough to damage buildings.
Many natural geological stores of CO2 have been discovered underground (often by people looking for oil and gas). In many cases the CO2 has been there for millions of years.
Storage in deep geological formations is also known as 'geo-sequestration'. In this technique, CO2 is converted into a high pressure, liquid-like form known as 'supercritical CO2'. Supercritical CO2 behaves like a runny liquid, a bit like WD40, and is injected directly into sedimentary rocks.
The elements bind to create solid, chalky minerals, essentially locking the CO2 into the rock in a process called 'mineral storage'. In the case of saline aquifers, as well as structural and mineral storage, the CO2 can dissolve into the salty water in a process called 'dissolution storage'.
CO2 is transported, stored and handled in liquid form, either at ambient temperature (in cylinders or non-insulated storage tanks at a pressure of 45-65 bar) or refrigerated (in insulated tankers and storage tanks) at temperatures between -35 °C and -15 °C and pressures of 12 to 25 bar.
The CO2 injections can push saltier water upwards towards the drinking water. Or the CO2 itself can mix into the drinking water, acidifying it and leaching toxins from the rock. How do we detect and prevent these issues deep underground, especially when we are developing 100+ new sites every year?