Projects
- TeSCAL – Testing the foundations of special core analysis (2024 - 2028)
- HyStorm – Clean offshore energy by hydrogen storage in petroleum reservoirs (2021 - 2025)
- LowEmission Research Centre (2019 - 2027)
- POREPAC - Preventing loss of near-well permeability in CO2 injection wells (2018 - 2021)
- NCCS (2016 - 2024)
Laboratories
More publications
- Hydrogen adsorption kinetics and diffusion of clays: Implications for hydrogen geo-storage and natural hydrogen exploration
- Impact of hydration on hydrogen sorption in clay minerals and shale caprocks: Implications for hydrogen energy and waste storage
- Surface wettability governs brine evaporation and salt precipitation during carbon sequestration in saline aquifers: Microfluidic insights
- Effect of the concentration of commercial partially CO2-soluble surfactants on foam strength Read the publication
- Hydrogen and Cushion Gas Adsorption–Desorption Dynamics on Clay Minerals Read the publication
Other
- Salt precipitation dynamics in saline aquifers during geological CO2 storage: Role of continuous brine access and its implications for injectivity and containment integrity
- Bridging numerical predictions and experimental realities: CO2 mineralization in basaltic rocks
- Evaluating Hydrogen Sorption in Shale: Effects of Mineral Composition and Sample Treatment
- Understanding Salt Precipitation Dynamics during CO2 Injection into Saline Aquifers using Microfluidic Experiments
- CO2-Induced Salt Crystallization in Sandstone Reservoirs: Significance for Mechanical Properties and Containment in Saline Aquifers
- Feasibility of Hydrogen Storage in Depleted Hydrocarbon Reservoirs in Norway
- Role of Continuous Brine Access on Salt Precipitation Dynamics ─ Implications for Injectivity and Containment Integrity during Geological CO2 Storage
- Hydrogen adsorption in clay minerals and shale
- Is salt precipitation an issue during geological storage of hydrogen in saline aquifers? from thermodynamic perspective using PC-SAFT EoS
- How to bridge between different time and length scales using a new probabilistic approach for mineral nucleation and growth