An Advanced Joint Inversion System for Carbon Dioxide Storage Modeling with Large Date Sets for Characterization and Real-Time Monitoring-Enhancing Storage Performance and Reducing Failure Risks under Uncertainties Email Page
email
Print This Page
print
Performer: Leland Stanford Junior University
Project conceptual framework for developing,<br/>testing, and applying advanced algorithms for high<br/>resolution estimation of subsurface properties and<br/>CO<sub>2</sub> transport and to provide uncertainty estimates
Project conceptual framework for developing,
testing, and applying advanced algorithms for high
resolution estimation of subsurface properties and
CO2 transport and to provide uncertainty estimates
Website: Leland Stanford Junior University
Award Number: FE0009260
Project Duration: 10/01/2012 – 01/31/2016
Total Award Value: $799,865
DOE Share: $600,000
Performer Share: $199,865
Technology Area: Geologic Storage
Key Technology: GS: Fluid Flow, Pressure & Water Management
Location: Stanford, California

Presentations, Papers, and Publications


Back