Tore Lyngås Føyen
- E-mailTore.Foyen@uib.no
- Visitor AddressAllegt. 55
- Postal AddressPostboks 78035020 BERGEN
Academic article
- 2020. Pore-and core-scale insights of nanoparticle-stabilized foam for CO2-enhanced oil recovery. Nanomaterials. 1-15.
- 2020. Increased CO2 storage capacity using CO2-foam. International Journal of Greenhouse Gas Control. 11 pages.
- 2020. Core-scale sensitivity study of CO2 foam injection strategies for mobility control, enhanced oil recovery, and CO2 storage. E3S Web of Conferences. 1-12.
- 2020. CO2 mobility reduction using foam stabilized by CO2- and water-soluble surfactants. Journal of Petroleum Science and Engineering. 12 pages.
- 2019. The Effect of Non-Uniform Wettability and Heterogeneity on Induction Time and Onset of Spontaneous Imbibition. SPE Journal. 1192-1200.
- 2019. Pore-to-core EOR upscaling for CO2-foam for CCUS. SPE Journal. 2793-2803.
- 2019. Dos and Don’ts When Developing a System to Investigate Spontaneous Imbibition in Unconsolicdated Porous Media. E3S Web of Conferences. 1-10.
- 2019. An integrated carbon-dioxide-foam enhanced-oil-recovery pilot program with combined carbon capture, utilization, and storage in an onshore Texas heterogeneous carbonate field. SPE Reservoir Evaluation and Engineering. 1449-1466.
- 2018. Darcy-scale simulation of boundary-condition effects during capillary-dominated flow in high-permeability systems. SPE Reservoir Evaluation and Engineering. 673-691.
Lecture
- 2020. CO2 Foam Field Pilot Design and Initial Results.
- 2018. Integrated CO2 Foam EOR Pilot Program with Combined CCUS in an Onshore Texas Heterogeneous Carbonate Field.
Academic lecture
- 2020. CO2 Mobility Control by Foam at the Pore Level.
- 2019. Silica Nanoparticles to Stabilize CO2-foam for Efficient CCUS in Challenging Reservoirs.
- 2018. The Onset of Spontaneous Imbibition: How Irregular Fronts Influence Imbibition Rate and Scaling Groups.
- 2018. Pore-to Core EOR Upscaling for CO2-foam for CCUS.
- 2018. Nanoparticle stabilized foam in harsh conditions for CO2 EOR.
- 2018. Dos and Don'ts when Developing a System to Investigate Spontaneous Imbibition in Unconsolidated Porous Media.
- 2017. Numerical Interpretation of Laboratory Spontaneous Imbibition - Incorporation of the Capillary Back Pressure and How it Affects SCAL.
- 2017. CO2 Foam Enhanced Oil Recovery Field Pilots.
Doctoral dissertation
- 2020. CO2 Foam Using non-ionic Surfactants - For Increased Storage Capacity and Oil Recovery .
Academic chapter/article/Conference paper
- 2019. Interpretation of Induction Time and Nonstandard Spontaneous Imbibition Trends Utilizing In-situ Measurements – Identification of No-Flow Regions and Wettability Alteration.
- 2018. The Onset of Spontaneous Imbibition: How Irregular Fronts Influence Imbibition Rate and Scaling Groups. 13 pages.
- 2018. Pore-to Core EOR Upscaling for CO2-foam for CCUS.
- 2018. Integrated CO2 Foam EOR Pilot Program with Combined CCUS in an Onshore Texas Heterogeneous Carbonate Field.
- 2017. Numerical Interpretation of Laboratory Spontaneous Imbibition - Incorporation of the Capillary Back Pressure and How it Affects SCAL.
- 2007. Do’s and Don’ts When Developing a System to Investigate Spontaneous Imbibition in Unconsolidated Porous Media.
- 2007. Dos and Don'ts when Developing a System to Investigate Spontaneous Imbibition in Unconsolidated Porous Media.
Poster
- 2019. Interpretation of Induction Time and Nonstandard Spontaneous Imbibition Trends Utilizing In-situ Measurements – Identification of No-Flow Regions and Wettability Alteration.
- 2019. Automated Quantitative Micromodel Image Analysis Applied to High-Pressure CO2 Foam Injections.
More information in national current research information system (CRIStin)