Integrated Experiments and Multiscale Modeling for Subsurface Energy Transition Systems
Wednesday, 3 January
Technical Session
This session highlights integrated experimental and modeling approaches advancing subsurface energy transition systems, including CO2 storage, geothermal energy, and hydrogen. Emphasis is placed on multiscale processes, system integration, and field-relevant insights to improve injectivity, storage performance, and long-term reliability.
Session Chairpersons
-
AlternateNon-equilibrium Behavior Of CO₂ Bubble Evolution Under Dynamic Pressure Conditions
-
AlternateEnhancing Carbon Storage Simulation Models For Regulatory Purposes: An Adaptive Multiscale Coarsening Grid
-
AlternateIntegrated Reservoir And Surface Facilities Simulation For Narrow-boiling Fluids With Application To Carbon Capture And Storage
-
AlternateAnalysis Of Reservoir Thermal Energy Storage For Improving Grid Stability
-
AlternateCoupled Experimental And Geochemical Modeling Of Brucite Silification In Serpentinizing Dunite
-
AlternateIntegrated Digital Assessment Of Depleted Gas Reservoirs Suitability For Underground Hydrogen Storage
-
AlternatePoromechanical Simulations Of Caprock Creep And Progressive Annulus Closure
-
AlternateStaged Field Development Planning For Enhanced Geothermal Systems Under Thermal And Economic Constraints
-
AlternateEconomic Evaluation And Risks Management Of Green Hydrogen Production Systems Using Offshore Wind Energy
-
AlternateQuantifying Injectivity And Storage Efficiency Of Co₂ In Depleted Gas Reservoirs: Core-scale Insights For Field Deployment