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Oil production from tight reservoirs and implementation of supercritical CO2-injection as an EOR method in shale-oil formations.

Nanoparticle stabilized in situ CO2-foam generation for mobility reduction during oil displacement processes in heterogeneous porous media.

CO2 sequestration and storage in produced hydrocarbon reservoirs. 

Utvalgte publikasjoner
  • Rognmo, Arthur Uno; Fernø, Martin; Graue, Arne. 2019. CO2-Foams for Enhanced Oil Recovery and CO2 Storage. Universitetet i Bergen.
  • Rognmo, Arthur Uno; Heldal, Sandra; Fernø, Martin. 2018. Silica Nanoparticles to Stabilize CO2-foam for Improved CO2 Utilization: Enhanced CO2 Storage and Oil Recovery from Mature Oil Reservoirs. Fuel. 216: 621-626. doi: 10.1016/j.fuel.2017.11.144
  • Rognmo, Arthur Uno; Horjen, Henriette Trydal; Fernø, Martin. 2017. Nanotechnology for Improved CO2 Utilization in CCS: Laboratory Study of CO2-Foam Flow and Silica Nanoparticle Retention in Porous Media. International Journal of Greenhouse Gas Control. 64: 113-118. Publisert 2017-07-19. doi: 10.1016/j.ijggc.2017.07.010

Pore-to-Core EOR Upscaling of Co2-Foam for CCUS. Oral presentation. SPE Europec featured at 80th EAGE Annual Conference & Exhibition, June 11-14, 2018 in Copenhagen, Denmark. DOI: https://doi.org/10.2118/190869-MS.

Performance of Silica Nanoparticles in CO2-foam for EOR and CCUS at Tough Reservoir Conditions. Oral presentation. SPE Norway One Day Seminar, April 18, 2018 in Bergen, Norway. DOI: https://doi.org/10.2118/191318-MS

Nanotechnology for increased CO2 utilization: Laboratory study of Enhanced CO2 Storage and Oil Recovery by CO2-foam injection. Oral presentation. 3rd Biennial CO2 for EOR as CCUS Conference, October 4-6, 2017 in Houston, TX, USA.

Unlocking the Potential without Fracking – CO2 Injection in Tight Shale Oil. Oral presentation. International Symposium of the Society of Core Analysts, August 27 – September 1, 2017 in Vienna, Austria. URL: http://www.jgmaas.com/SCA/2017/SCA2017-018.pdf

CO2 Injection for EOR in Tight Shales. Poster presentation. IOR Norway 2016 Recover for the Future, April 26-27, 2016 in Stavanger, Norway. URL: http://www.uis.no/getfile.php/13270545/IOR-senter/6.%20Arthur%20Uno%20Rognmo.pdf

Oil Production from Tight Shale Using CO2. Oral presentation. 2nd Biennial CO2 for EOR as CCUS Conference, October 4-6, 2015 in Houston, TX, USA. URL: http://nortexpetroleum.org/wp-content/uploads/2015/10/Rognmo_NorTex_final-posted.pdf

Rognmo, A. U., Fredriksen, S. B. and Fernø, M. A., 2017. Unlocking the Potential without Fracking – CO2 Injection in Tight Shale Oil. Peer-reviewed Proceedings at International Symposium of the Society of Core Analysts. URL: http://www.jgmaas.com/SCA/2017/SCA2017-018.pdf

Rognmo, A. U., Horjen, H. and Fernø, M. A., 2017. Nanotechnology for Improved CO2 Utilization in CCS: Laboratory Study of CO2-Foam Flow and Silica Nanoparticle Retention in Porous Media. International Journal of Greenhouse Gas Control. DOI: https://doi.org/10.1016/j.ijggc.2017.07.010

A.U. Rognmo, Heldal, S. and Fernø, M.A., 2017. Silica Nanoparticles to Stabilize CO2-foam for Improved CO2 Utilization: Enhanced CO2 Storage and Oil Recovery from Mature Oil Reservoirs. Fuel. DOI: https://doi.org/10.1016/j.fuel.2017.11.144

Rognmo, A. U., Fredriksen, S. B., Alcorn, Z.P., Fernø, M.A., and Graue, A., Pore-to-Core EOR Upscaling of Co2-Foam for CCUS. Proceedings at the SPE Europec featured at 80th EAGE Annual Conference & Exhibition, 11-14 June 2018 in Copenhagen, Denmark. DOI:https://doi.org/10.2118/190869-MS

Rognmo, A. U., Al-Khayyat, N., Heldal, S., Vikingstad, I., Eide, Ø., Fredriksen, S. B., Alcorn, Z.P., Graue, A., Bryant, S. L., Kovscek, A. R., and Fernø, M.A. Performance of Silica Nanoparticles in CO2-foam for EOR and CCUS at Tough Reservoir Conditions. Proceedings at Norway One Day Seminar, April 2018. DOI: https://doi.org/10.2118/191318-MS

Fernø, M. A., Hauge, L. P., Rognmo, A. U., Gauteplass, J. and Graue, A., 2015. Flow visualization of CO2 in tight shale formations at reservoir conditions, Geophysical Research Letters. DOI: https://doi.org/10.1016/j.ijggc.2017.07.010

Fredriksen, S. B., Rognmo, A. U., Sandengen, K. and Fernø, M. A., 2017. Wettability Effects on Osmosis as an Oil Mobilization Mechanism During Low-Salinity Waterflooding, Petrophysics. URL: https://www.onepetro.org/download/journal-paper/SPWLA-2017-v58n1a3?id=journal-paper%2FSPWLA-2017-v58n1a3

Fredriksen, S. B., Rognmo, A. U. and Fernø, M. A., 2017. Pore-Scale Mechanisms during Low Salinity Waterflooding: Oil Mobilization by Diffusion and Osmosis, Journal of Petroleum Science and Engineering. DOI: https://doi.org/10.1016/j.petrol.2017.10.022

Alcorn, Z. P., Sharma, M., Fredriksen, S. B., Rognmo, A. U., Fernø, M.A. and Graue, A., 2018. An Integrated CO2 Foam EOR Pilot Program with Combined CCUS in an Onshore Texas Heterogeneous Carbonate Field. Proceedings at the SPE IOR Symposium April 14-18, 2018 Tulsa, OK USA. DOI: https://doi.org/10.2118/190204-MS

Fredriksen, S. B., Alcorn, Z. P., Frøland, A., Viken, A., Rognmo, A. U., Seland, J. G., Ersland, G., Fernø, M. A. and Graue, A., 2018. Surfactant Pre-Floods during CO2 Foam for Integrated Enhanced Oil Recovery in Fractured Oil-Wet Carbonates. Proceedings at the SPE IOR Symposium April 14-18, 2018 Tulsa, OK USA. DOI: https://doi.org/10.2118/190168-MS

Tidsskriftartikler
  • Alcorn, Zachary Paul; Fredriksen, Sunniva; Sharma, Mohan; Rognmo, Arthur Uno; Føyen, Tore Lyngås; Fernø, Martin; Graue, Arne. 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. 18 sider. doi: 10.2118/190204-PA
  • Fredriksen, Sunniva; Alcorn, Zachary Paul; Frøland, Anders; Viken, Anita; Rognmo, Arthur Uno; Ersland, Geir; Seland, John Georg; Fernø, Martin; Graue, Arne. 2019. Surfactant Pre-Floods during CO2 Foam for Integrated Enhanced Oil Recovery in Fractured Oil-Wet Carbonates. SPE Journal. doi: https://doi.org/10.2118/190168-PA
  • Rognmo, Arthur Uno; Al-Khayyat, Noor; Heldal, Sandra; Vikingstad, Ida; Eide, Øyvind; Fredriksen, Sunniva; Alcorn, Zachary Paul; Graue, Arne; Bryant, Steven; Kovscek, Anthony; Fernø, Martin. 2019. Performance of Silica Nanoparticles in CO2-foam for EOR and CCUS at Tough Reservoir Conditions. SPE Journal. doi: 10.2118/191318-MS
  • Rognmo, Arthur Uno; Fredriksen, Sunniva; Eide, Øyvind; Føyen, Tore Lyngås; Graue, Arne; Alcorn, Zachary Paul; Sharma, Mohan; Fernø, Martin. 2019. Pore-to-Core EOR Upscaling for CO2-foam for CCUS. SPE Journal.
  • Rognmo, Arthur Uno; Heldal, Sandra; Fernø, Martin. 2018. Silica Nanoparticles to Stabilize CO2-foam for Improved CO2 Utilization: Enhanced CO2 Storage and Oil Recovery from Mature Oil Reservoirs. Fuel. 216: 621-626. doi: 10.1016/j.fuel.2017.11.144
  • Fredriksen, Sunniva; Rognmo, Arthur Uno; Fernø, Martin. 2017. Pore-scale mechanisms during low salinity waterflooding: Oil mobilization by diffusion and osmosis. Journal of Petroleum Science and Engineering. 163: 650-660. doi: 10.1016/j.petrol.2017.10.022
  • Fredriksen, Sunniva; Rognmo, Arthur Uno; Sandengen, Kristian; Fernø, Martin. 2017. Wettability effects on osmosis as an oil-mobilization mechanism during low-salinity waterflooding. Petrophysics. 58: 28-35. doi: SPWLA-2017-v58n1a3
  • Rognmo, Arthur Uno; Horjen, Henriette Trydal; Fernø, Martin. 2017. Nanotechnology for Improved CO2 Utilization in CCS: Laboratory Study of CO2-Foam Flow and Silica Nanoparticle Retention in Porous Media. International Journal of Greenhouse Gas Control. 64: 113-118. Publisert 2017-07-19. doi: 10.1016/j.ijggc.2017.07.010
  • Fernø, Martin; Hauge, Lars Petter; Rognmo, Arthur Uno; Gauteplass, Jarand; Graue, Arne. 2015. Flow visualization of CO2 in tight shale formations at reservoir conditions. Geophysical Research Letters. 42: 7414-7419. doi: 10.1002/2015GL065100
Rapporter/avhandlinger
  • Rognmo, Arthur Uno. 2019. CO2-Foams for Enhanced Oil Recovery and CO2 Storage. Universitetet i Bergen.
Bokkapitler
  • Alcorn, Zachary Paul; Fredriksen, Sunniva; Sharma, Mohan; Rognmo, Arthur Uno; Føyen, Tore Lyngås; Fernø, Martin; Graue, Arne. 2018. Integrated CO2 Foam EOR Pilot Program with Combined CCUS in an Onshore Texas Heterogeneous Carbonate Field. kapittel. I:
    • Holtz, Mark. 2018. SPE Improved Oil Recovery Conference. Society of Petroleum Engineers. 3650 sider. ISBN: 978-1-61399-570-9.
  • Rognmo, Arthur Uno; Fredriksen, Sunniva; Alcorn, Zachary Paul; Sharma, Mohan; Føyen, Tore Lyngås; Eide, Øyvind; Graue, Arne; Fernø, Martin. 2018. Pore-to Core EOR Upscaling for CO2-foam for CCUS. kapittel. I:
    • SPE, . 2018. SPE Europec featured at 80th EAGE Conference and Exhibition, 11-14 June, Copenhagen, Denmark. Society of Petroleum Engineers. ISBN: 978-1-61399-606-5.

Se fullstendig oversikt over publikasjoner i CRIStin.

Nanoparticles to Stabilize CO2-foam for Efficient CCUS in Challenging Reservoirs (NFR prosjektkode: 268216)

Prosjektleder: Prof. Martin Fernø

Prosjektet vil etablere attraktive industrielle løsninger som reduserer karbonfotavtrykket gjennom kombinert lagring av klimagassen COog økt oljeproduksjon i modne felt ved bruk av nanoteknologi for å stabilisere CO2-skum. Globale energi strategier må reflektere dagens klimautfordringer, og lagring av CO2 er en storskala løsning for å redusere utslipp av menneskeskapt CO2 fra fossilt brensel. Fangst av CO2 er dyrt og energikrevende, og industrien trenger økonomiske insentiver til å iverksette storskala CO2 fangst og lagring. CO2 skum kan realisere disse verdiene og samtidig gi en positiv synergi mellom behovet for mer energi kombinert med muligheten for reduksjon av CO2 utslipp og karbon lagring ved permanent, sikker og billig lagring av CO2 i modne oljefelt. Et internasjonalt samarbeid med anerkjente forskere fra University of Calgary, Canada og Stanford University, USA vil bruke nanoteknologi for å forbedre CO2 skum. Nanoteknologi har potensiale til å forbedre flere av dagens EOR teknologier i reservoarmiljøer med høy temperatur og salinitet

 

CO2 Storage from Lab to On-Shore Field Pilots Using CO2-Foam for Mobility Control in CCUS (NFR prosjektkode: 249742)

Prosjektleder: Prof. Arne Graue

An international collaboration, including 6 universities and 7 oil and service companies in Europe and USA, combines expertise and the common goal to develop and test CO2 foam systems with mobility control at laboratory and field scale to optimize CO2 storage in the form of CO2 integrated EOR and CO2 aquifer sequestration. CO2 foam systems for mobility control will be developed and tested in three inexpensive confirmed on-shore US field pilots, in both clastic and carbonate reservoirs. Assisted by field experience from the US pilots CO2 Foam EOR for field implementation on NCS will be developed. Important for use on NCS is screening of surfactants to find the most environmental friendly chemicals, to include various types of reservoir rocks to reflect NCS conditions and to include various types of fractures and heterogeneities that are most important for NCS applications.