Laboratorier
Kontaktperson, laboratorier
Publikasjoner
- μ-CT imaging of CO2-hydrate generation during cold core flooding
- CO2 Monitoring Design using Value-of-Information Analysis with Applications to the Sleipner Project
- Using high pressure solutions of polyfluoroacrylate and CO2 to Seal cement cracks for improved wellbore integrity
- In-situ contact angle measurements
- Feasibility of conformance surveillance
- Novel laboratory setup for realistic wellbore cement and formation integrity studies
- Monitoring of CO2 Well Plug Integrity. Electrical Response of Cement/CNF Sensor to Mechanical Load, Water Saturation and Carbonation
- Novel use of polymers for enhanced plug and abandonment and well casing bonding - PFA Demo
- Guidelines for next generation measurement and monitoring of Shale Gas/CCS with guidance for practitioners of the future
- Report on Integrated Local-Global Geomechanics
Annen formidling
- Exploring the Transferability of Optimization Methods from Production to Storage: A Case Study of CO2 Injection at Smeaheia
- Multiphysics inversion of reservoir properties for quantitative CO2 storage monitoring
- Innovative CO2 Monitoring with Portable Active Seismic Source Technology: Insights from Svelvik CO2 Field Lab
- µCT imaging of CO₂ hydrate evolution in reservoir rock under cold injection conditions
- Rock Physics and Seismic Characterization of CO₂-Saturated Rocks - Reconciling Laboratory Evidence with Theoretical Models
- Cross-Well Seismic Imaging of CO2 Plume Dynamics at Svelvik CO2 Field Lab
- Monitoring the dynamics of the injected CO2 plume at Svelvik field lab using multi-source and simultaneous multi-receiver seismic systems: A combined borehole hydrophone, surface geophone and DAS approach
- In-situ Laboratory Wellbore Cement Integrity in Simulated Field Environments for CCS: Testing and Remediation Approaches
- In-situ pore-scale contact angle measurement using x-ray µCT imaging: technique and applications to CO₂ Storage
- The role of wellbore infrastructure in marine CSEM for monitoring deep formation CO2 storage and detecting legacy wells: a feasibility assessment