Open Access
Numéro
Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles
Volume 74, 2019
Numéro d'article 36
Nombre de pages 11
DOI https://doi.org/10.2516/ogst/2019003
Publié en ligne 8 avril 2019
  • Strand S., Puntervold T., Austad T. (2008) Effect of temperature on enhanced oil recovery from mixed-wet chalk cores by spontaneous imbibition and forced displacement using seawater, Energy Fuels 22, 5, 3222–3225. [Google Scholar]
  • Yousef A.A., Al-Saleh S., Al-Kaabi A.U., Al-Jawfi M.S. (2010) Laboratory investigation of novel oil recovery method for carbonate reservoirs, Canadian Unconventional Resources and International Petroleum Conference, Society of Petroleum Engineers. [Google Scholar]
  • Yousef A.A., Liu J.S., Blanchard G.W., Al-Saleh S., Al-Zahrani T. (2012) Smart waterflooding: industry, SPE Annual Technical Conference and Exhibition, Society of Petroleum Engineers. [Google Scholar]
  • Al-Shalabi E.W., Sepehrnoori K., Pope G., Mohanty K. (2014) A fundamental model for predicting oil recovery due to low salinity water injection in carbonate rocks, SPE Energy Resources Conference, Society of Petroleum Engineers. [Google Scholar]
  • Tang G., Morrow N.R. (1997) Salinity, temperature, oil composition, and oil recovery by waterflooding, SPE Reserv. Eng. 12, 4, 269–276. [Google Scholar]
  • McGuire P., Chatham J., Paskvan F., Sommer D., Carini F. (2005) Low salinity oil recovery: An exciting new EOR opportunity for Alaska’s North Slope, SPE Western Regional Meeting, Society of Petroleum Engineers. [Google Scholar]
  • Zhang Y., Morrow N.R. (2006) Comparison of secondary and tertiary recovery with change in injection brine composition for crude-oil/sandstone combinations, SPE/DOE Symposium on Improved Oil Recovery, Society of Petroleum Engineers. [Google Scholar]
  • Lager A., Webb K.J., Black C., Singleton M., Sorbie K.S. (2008) Low salinity oil recovery-an experimental investigation, Petrophysics 49, 1, 28–35. [Google Scholar]
  • Soraya B., Malick C., Philippe C., Bertin H.J., Hamon G. (2009) Oil recovery by low-salinity brine injection: laboratory results on outcrop and reservoir cores, SPE Annual Technical Conference and Exhibition, Society of Petroleum Engineers. [Google Scholar]
  • Ligthelm D.J., Gronsveld J., Hofman J., Brussee N., Marcelis F., van der Linde H. (2009) Novel waterflooding strategy by manipulation of injection brine composition, EUROPEC/EAGE Conference and Exhibition, Society of Petroleum Engineers. [Google Scholar]
  • Austad T., RezaeiDoust A., Puntervold T. (2010) Chemical mechanism of low salinity water flooding in sandstone reservoirs, SPE Improved Oil Recovery Symposium, Society of Petroleum Engineers. [Google Scholar]
  • Berg S., Cense A., Jansen E., Bakker K. (2010) Direct experimental evidence of wettability modification by low salinity, Petrophysics 51, 5, 314–322. [Google Scholar]
  • Lee S., Webb K., Collins I., Lager A., Clarke S. (2011) Low salinity oil recovery–increasing understanding of the underlying mechanisms of double layer expansion, IOR 2011-16th European Symposium on Improved Oil Recovery, Cambridge, United Kingdom. [Google Scholar]
  • Vledder P., Gonzalez I.E., Carrera Fonseca J.C., Wells T., Ligthelm D.J. (2010) Low salinity water flooding: proof of wettability alteration on a field wide scale, SPE Improved Oil Recovery Symposium, Society of Petroleum Engineers. [Google Scholar]
  • Hassenkam T., Pedersen C.S., Dalby K., Austad T., Stipp S.L.S. (2011) Pore scale observation of low salinity effects on outcrop and oil reservoir sandstone, Colloids Surf. A: Physicochem. Eng. Aspects 390, 1, 179–188. [CrossRef] [Google Scholar]
  • Mahani H., Sorop T., Ligthelm D.J., Brooks D., Vledder P., Mozahem F., Ali Y. (2011) Analysis of field responses to low-salinity waterflooding in secondary and tertiary mode in Syria, SPE EUROPEC/EAGE Annual Conference and Exhibition, Society of Petroleum Engineers. [Google Scholar]
  • Nasralla R.A., Bataweel M.A., Nasr-El-Din H.A. (2013) Investigation of wettability alteration and oil-recovery improvement by low-salinity water in sandstone rock, J. Can. Pet. Technol. 52, 2, 144–154. [CrossRef] [Google Scholar]
  • Romero M.I., Gamage P., Jiang H., Chopping C., Thyne G. (2013) Study of low-salinity waterflooding for single-and two-phase experiments in Berea sandstone cores, J. Pet. Sci. Eng. 110, 149–154. [Google Scholar]
  • Alotaibi M.B., Azmy R., Nasr-El-Din H.A. (2010) Wettability challenges in carbonate reservoirs, SPE Improved Oil Recovery Symposium, Society of Petroleum Engineers. [Google Scholar]
  • Strand S., Høgnesen E.J., Austad T. (2006) Wettability alteration of carbonates – Effects of potential determining ions (Ca2+ and SO42−) and temperature, Colloids Surf. A: Physicochem. Eng. Aspects 275, 1, 1–10. [Google Scholar]
  • Yousef A.A., Al-Saleh S.H., Al-Kaabi A., Al-Jawfi M.S. (2011) Laboratory investigation of the impact of injection-water salinity and ionic content on oil recovery from carbonate reservoirs, SPE Reserv. Eval. Eng. 14, 5, 578–593. [Google Scholar]
  • Sharma M., Filoco P. (2000) Effect of brine salinity and crude-oil properties on oil recovery and residual saturations, SPE J. 5, 3, 293–300. [CrossRef] [Google Scholar]
  • Yildiz H.O., Morrow N.R. (1996) Effect of brine composition on recovery of Moutray crude oil by waterflooding, J. Pet. Sci. Eng. 14, 3–4, 159–168. [Google Scholar]
  • Austad T., Strand S., Høgnesen E., Zhang P. (2005) Seawater as IOR fluid in fractured chalk, SPE International Symposium on Oilfield Chemistry, Society of Petroleum Engineers. [Google Scholar]
  • Austad T., Shariatpanahi S., Strand S., Black C., Webb K. (2011) Conditions for a low-salinity enhanced oil recovery (EOR) effect in carbonate oil reservoirs, Energy Fuels 26, 1, 569–575. [Google Scholar]
  • Webb K.J., Black C.J.J., Tjetland G. (2005) A laboratory study investigating methods for improving oil recovery in carbonates, International Petroleum Technology Conference, International Petroleum Technology Conference. [Google Scholar]
  • Zhang P., Austad T. (2006) Wettability and oil recovery from carbonates: Effects of temperature and potential determining ions, Colloids Surf. A: Physicochem. Eng. Aspects 279, 1, 179–187. [Google Scholar]
  • Zhang P., Tweheyo M.T., Austad T. (2007) Wettability alteration and improved oil recovery by spontaneous imbibition of seawater into chalk: Impact of the potential determining ions Ca2+, Mg2+, and SO42−, Colloids Surf. A: Physicochem. Eng. Aspects 301, 1, 199–208. [Google Scholar]
  • Fernø M., Grønsdal R., Åsheim J., Nyheim A., Berge M., Graue A. (2011) Use of sulfate for water based enhanced oil recovery during spontaneous imbibition in chalk, Energy Fuels 25, 4, 1697–1706. [Google Scholar]
  • Gupta R., Smith G.G., Hu L., Willingham T., Lo Cascio M. (2011) Enhanced waterflood for carbonate reservoirs-impact of injection water composition, SPE Middle East Oil and Gas Show and Conference, Society of Petroleum Engineers. [Google Scholar]
  • Fathi S.J., Austad T., Strand S. (2011) Effect of water-extractable carboxylic acids in crude oil on wettability in carbonates, Energy Fuels 25, 6, 2587–2592. [Google Scholar]
  • Romanuka J., Hofman J., Ligthelm D.J., Suijkerbuijk B., Marcelis F., Oedai S. (2012) Low salinity EOR in carbonates, SPE Improved Oil Recovery Symposium, Society of Petroleum Engineers. [Google Scholar]
  • Yi Z., Sarma H.K. (2012) Improving waterflood recovery efficiency in carbonate reservoirs through salinity variations and ionic exchanges: a promising low-cost “smart-waterflood” approach, Abu Dhabi International Petroleum Conference and Exhibition, Society of Petroleum Engineers. [Google Scholar]
  • Al-Attar H.H., Mahmoud M.Y., Zekri A.Y., Almehaideb R., Ghannam M. (2013) Low-salinity flooding in a selected carbonate reservoir: experimental approach, J. Pet. Expl. Prod. Technol. 3, 2, 139–149. [CrossRef] [Google Scholar]
  • Chandrasekhar S., Sharma H., Mohanty K.K. (2016) Wettability alteration with brine composition in high temperature carbonate rocks, SPE Annual Technical Conference and Exhibition, Society of Petroleum Engineers. [Google Scholar]
  • Kwak H.T., Yousef A.A., Al-Saleh S. (2014) New insights on the role of multivalent ions in water-carbonate rock interactions, SPE Improved Oil Recovery Symposium, Society of Petroleum Engineers. [Google Scholar]
  • Alotaibi M.B., Yousef A. (2017) The role of individual and combined ions in waterflooding carbonate reservoirs: Electrokinetic study, SPE Reserv. Eval. Eng. 20, 1, 77–86. [Google Scholar]
  • Mahani H., Keya A.L., Berg S., Bartels W.-B., Nasralla R., Rossen W.R. (2015) Insights into the mechanism of wettability alteration by low-salinity flooding (LSF) in carbonates, Energy Fuels 29, 3, 1352–1367. [Google Scholar]
  • Mahani H., Keya A.L., Berg S., Nasralla R. (2017) Electrokinetics of carbonate/brine interface in low-salinity waterflooding: Effect of brine salinity, composition, rock type, and pH on ζ-potential and a surface-complexation model, SPE J. 22, 1, 53–68. [CrossRef] [Google Scholar]
  • Myint P.C., Firoozabadi A. (2015) Thin liquid films in improved oil recovery from low-salinity brine, Curr. Opin. Colloid Interface Sci. 20, 2, 105–114. [Google Scholar]
  • Derjaguin B., Churaev N., Muller V. (1987) Wetting films, in surface forces, Springer, Boston, MA, pp. 327–367. [CrossRef] [Google Scholar]
  • Hirasaki G. (1991) Wettability: Fundamentals and surface forces, SPE Form. Eval. 6, 2, 217–226. [CrossRef] [Google Scholar]
  • Ramachandran R., Somasundaran P. (1986) Effect of temperature on the interfacial properties of silicates, Colloids Surf. 21, 355–369. [CrossRef] [Google Scholar]
  • Rashid S., Mousapour M.S., Ayatollahi S., Vossoughi M., Beigy A.H. (2015) Wettability alteration in carbonates during “Smart Waterflood”: Underlying mechanisms and the effect of individual ions, Colloids Surf. A: Physicochem. Eng. Aspects 487, 142–153. [CrossRef] [Google Scholar]
  • Golabi E., Seyedeyn Azad F., Ayatollahi S., Hosseini N., Akhlaghi N. (2012) Experimental study of wettability alteration of limestone rock from oil wet to water wet by applying various surfactants, SPE Heavy Oil Conference Canada, Society of Petroleum Engineers. [Google Scholar]
  • Austad T. (2013) Water-based EOR in carbonates and sandstones: new chemical understanding of the EOR potential using smart water, Enhanc. Oil Recov. Field Case Stud. 301–335. [CrossRef] [Google Scholar]
  • Rao D.N (1996) Wettability effects in thermal recovery operations, SPE/DOE Improved Oil Recovery Symposium, Society of Petroleum Engineers. [Google Scholar]
  • Amin S., Rega C.A., Jankevics H. (2012) Detection of viscoelasticity in aggregating dilute protein solutions through dynamic light scattering-based optical microrheology, Rheol. Acta 51, 4, 329–342. [Google Scholar]
  • Buckley J.S. (1996) Mechanisms and consequences of wettability alteration by crude oils, Heriot-Watt University, Edinburgh, United Kingdom. [Google Scholar]

Les statistiques affichées correspondent au cumul d'une part des vues des résumés de l'article et d'autre part des vues et téléchargements de l'article plein-texte (PDF, Full-HTML, ePub... selon les formats disponibles) sur la platefome Vision4Press.

Les statistiques sont disponibles avec un délai de 48 à 96 heures et sont mises à jour quotidiennement en semaine.

Le chargement des statistiques peut être long.