Carbon storage, which involves injecting CO2 deep into the earth, is a proven method of reducing how much of this greenhouse gas is released into our atmosphere.
To keep the global temperature rise to under 2 degrees Celsius, by 2030, we need to increase CO2 storage to 1,000 megatons per year.
Accelerating simulations by 700,000X using FNO, NVIDIA Modulus and AI help engineers quickly select the best geographical locations, determine the optimal depth and spacing of wells, and select the optimal injection rate and pressure for the CO2. And with NVIDIA Omniverse, they can visualize and optimize the full inspection process.
This helps ensure safe operation and long-term storage, reducing the amount of carbon dioxide released into our atmosphere.
#The-Berlin-Summit-For-EVE
To keep the global temperature rise to under 2 degrees Celsius, by 2030, we need to increase CO2 storage to 1,000 megatons per year.
Accelerating simulations by 700,000X using FNO, NVIDIA Modulus and AI help engineers quickly select the best geographical locations, determine the optimal depth and spacing of wells, and select the optimal injection rate and pressure for the CO2. And with NVIDIA Omniverse, they can visualize and optimize the full inspection process.
This helps ensure safe operation and long-term storage, reducing the amount of carbon dioxide released into our atmosphere.
#The-Berlin-Summit-For-EVE
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