- Alroudhan A.R., Vinogradov J., Jackson M.D. (2015) Zeta potential in carbonates at reservoir conditions – application to IOR, in: Paper We B06 Presented at the 18th European Symposium on IOR, Dresden, Germany, 14–16 April. [Google Scholar]
- Al-Shalabi E.W., Sepehrnoori K., Pope G. (2014) Geochemical interpretation of low salinity water injection in carbonate oil reservoirs, in: Paper SPE 169101 Prepared for the SPE IOR Symposium held in Tulsa, USA, 12–16 April. [Google Scholar]
- Austad T., RezaeiDoust A., Puntervold T. (2010) Chemical mechanism of low salinity water flooding in sandstone reservoirs, in: Paper Prepared for the SPE IOR Symposium held in Tulsa, OK, USA, 24–28 April. [Google Scholar]
- Austad T., Shariatpanahi S.F., Strand S., Black C.J.J., Webb K.J. (2012) Conditions for a low-salinity Enhanced Oil Recovery (EOR) effect in carbonate oil reservoirs, Energy Fuels 26, 569–575. [Google Scholar]
- Bazin B., Labrid J. (1991) Ion exchange and dissolution/precipitation modeling: Application to the injection of aqueous fluids into a reservoir sandstone, in: SPE Reservoir Engineering, May 1991, pp. 233–238. [Google Scholar]
- Bourbiaux B., Nguyen Q.L. (2018) Procédé de récupération d’hydrocarbures dans un réservoir géologique par injection d’eau faiblement saline. INPI No. 18/60.212. [Google Scholar]
- Dang C.T.Q., Nghiem L.X., Chen Z., Nguyen Q.P. (2013) Modeling low salinity waterflooding: Ion exchange, geochemistry and wettability alteration, in: Paper SPE 166447 Presented at the SPE ATCE, New Orleans, Louisiana, USA, 30 September–2 October. [Google Scholar]
- Duboué J., Bourrel M., Dusautoir T., Santanach E., Klimenko A., Agenet N., Boupat-Passade N., Lequeux F. (2019) Relevance of water-oil interfacial structure to low salinity oil recovery process, in: Paper P15 Presented at the 20th European Symposium on IOR, Pau, 8–11 April. [Google Scholar]
- Fattahi Mehraban M., Ayatollahi S., Sharifi M. (2019) Role of divalent ions, temperature, and crude oil during water injection into dolomitic carbonate oil reservoirs, Oil Gas Sci. Technol. - Rev. IFP Energies nouvelles 74, 36. doi: 10.2516/ogst/2019003. [CrossRef] [Google Scholar]
- Fjelde I., Asen S.V., Omekeh A. (2012) Low salinity water flooding experiments and interpretation by simulations, in: Paper SPE 154142 Presented at the 18th SPE IOR Symposium, Tulsa, OK, USA, April 14–18. [Google Scholar]
- Fjelde I., Omekeh A.V., Sokama-Neuyam Y.A. (2014) Low salinity water flooding: Effect of crude oil composition, in: Paper SPE 169090 Prepared for the SPE IOR Symposium held in Tulsa, USA, 12–16 April. [Google Scholar]
- Goodwin J. (2009) Colloïds and interfaces with surfactants and polymers, 2nd edn., John Wiley & Sons Ltd., Hoboken, NJ. [Google Scholar]
- Jackson M.D., Vinogradov J., Hamon G., Chamerois M. (2016) Evidence, mechanisms and improved understanding of controlled salinity waterflooding part 1: Sandstones, Fuel 185, 772–793. [CrossRef] [Google Scholar]
- Jerauld G.R., Lin C.Y., Webb K.J., Seccombe J.C. (2008) Modeling low-salinity waterflooding, paper SPE 102239. SPE Reserv. Evalu. Eng. 11, 6, 1000–1012. [CrossRef] [Google Scholar]
- Kasmaei A.K., Rao D.N. (2014) Is wettability alteration the main cause for enhanced recovery in low-salinity waterflooding, in: Paper SPE 169120 Prepared for the SPE IOR Symposium Held in Tulsa, USA, 12–16 April. [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, in: Paper SPE 169112 Prepared for the SPE IOR Symposium Held in Tulsa, USA, 12–16 April. [Google Scholar]
- Lager A., Webb K.J., Black C.J.J., Singleton M., Sorbie K.S. (2008) Low salinity oil recovery – An experimental investigation, Petrophysics 49, 1, 28–35. [Google Scholar]
- Lee S.Y., Webb K.J., Collins I.R., Lager A., Clarke S.M., O’Sullivan M., Routh A.F., Wang X. (2010) Low salinity oil recovery – increasing understanding of the underlying mechanisms, in: Paper SPE 129722 Prepared for the 17th SPE IOR Symposium Held in Tulsa, OK, USA, 24–28 April. [Google Scholar]
- Lenormand R., Eisenzimmer A., Zarcone C. (1993) A novel method for the determination of water/oil capillary pressures of mixed wettability samples, SCA Conference Paper Number 9322. [Google Scholar]
- Mahzari P., Sohrabi M. (2015) Impact of micro-dispersion formation on effectiveness of low salinity waterflooding, in: Paper Tu B09 Presented at the 18th European Symposium on IOR, Dresden, Germany, 14–16 April. [Google Scholar]
- McGuire P.L., Chatham J.R., Paskvan F.K., Sommer D.M., Carini F.H. (2005) Low salinity oil recovery: An exciting new EOR opportunity for Alaska’s North Slope, in: Paper SPE 93903 Prepared for Presentation at the Western Regional Meeting held in Irvine, CA, USA, 30 March–1 April. [Google Scholar]
- Mugele F., Siretanu I., Kumar N., Bera B., Wang L., Maestro A., Duits M., van den Ende D., Collins I. (2014) Charge control and wettability alteration at solid-liquid interfaces, in: Paper SPE 169143 Prepared for the SPE IOR Symposium Held in Tulsa, USA, 12–16 April. [Google Scholar]
- Qiao C., Li L., Johns R.T., Xu J. (2014) A mechanistic model for wettability alteration by chemically tuned water flooding in carbonate reservoirs, in: Paper Prepared for the SPE Annual Technical Conf. & Exh. Held in Amsterdam, 27–29 October. [Google Scholar]
- Robertson E.P. (2007) Low-salinity waterflooding to improve oil recovery – Historical field evidence, in: Paper SPE 109965 Prepared for the 2007 SPE Annual Technical Conference and Exhibition, Anaheim, California, 11–14 November. doi: 10.2118/109965-MS. [Google Scholar]
- Romanuka J., Hofman J.P., Ligthelm D.J., Suijkerbuijjk B.M.J.M., Marcelis A.H.M., Oedai S., Brussee N.J., Van der Linde H.A., Aksulu H., Austad T. (2012) Low salinity EOR in carbonates, in: Paper SPE 153869 Prepared for the 18th SPE IOR Symposium, Tulsa, USA, 14–18 April. [Google Scholar]
- Sandengen K., Melhuus K., Josang L.O. (2015) Osmosis as Mechanism for Low Salinity EOR, in: Paper We B03 Presented at the 18th European Symposium on IOR, Dresden, Germany, 14–16 April. [Google Scholar]
- Seccombe J., Lager A., Jerauld G., Jhaveri B., Buikema T., Bassler S., Denis J., Webb K., Cockin A., Fueg E. (2010) Demonstration of low-salinity EOR at Interwell Scale, Endicott Field, Alaska, in: Paper SPE 129692 Prepared for the 17th SPE IOR Symposium Held in Tulsa, OK, USA, 24–28 April. [Google Scholar]
- Sharifi M., Shaikh M. (2013) Investigation of optimum salinity of injected water in carbonate reservoirs using wettability measurement and core flooding, in: Paper SPE 165992 Prepared for Presentation at the SPE Reservoir Characterisation and Simulation Conf. and Exh. Held in Abu Dhabi, UAE, 16–18 Sept. [Google Scholar]
- Skauge A. (2013) Low salinity flooding – a critical review, in: Paper A11 Presented at the 17th European Symposium on IOR, 16–18 April 2013. [Google Scholar]
- Skrettingland K., Holt T., Tweheyo M.T., Skjevrak I. (2010) Snorre low salinity water injection – core flooding experiments and single well field pilot, in: Paper SPE 129877 Prepared for the 2010 SPE IOR Symposium, Tulsa, USA, 24–28 April. [Google Scholar]
- Suijkerbuijk B.M.J.M., Hofman J.P., Ligthelm D.J., Romanuka J., Brussee N., van der Linde H.A., Marcelis A.H.M. (2012) Fundamental investigations into wettability and low salinity flooding by parameter isolation, in: Paper SPE 154204 Prepared for the 18th SPE IOR Symposium, Tulsa, USA, 14–18 April. [Google Scholar]
- Tang G., Morrow N. (1999) Influence of brine composition and fines migration on crude oil/brine/rock interactions and oil recovery, JPSE 24, 99–111. [CrossRef] [Google Scholar]
- Uetani T., Kaido H., Yonebayashi H. (2019) Investigation of anhydrite dissolution as a potential low salinity waterflooding mechanism in carbonates, in: Paper P07 Presented at the 20th European Symposium on IOR, Pau, 8–11 April. [Google Scholar]
- Van Winden J.F., Suijkerbuijk B.M.J.M., Joekar-Niasar V., Brussee N.J., van der Linde H.A., Marcelis A.H.M., Coorn A.H., Pieterse S.G.J., Ganga K.S., Al-Qarshubi I.S.M. (2013) The critical parameter for low salinity flooding – the relative importance of crude oil, brine and rock, in: Paper A12 Presented at the 17th European Symposium on IOR, St. Petersburg, Russia, 16–18 April. [Google Scholar]
- Vledder P., Fonseca J.C., Wells T., Gonzalez I., Ligthelm D. (2010) Low salinity water flooding: proof of waterflooding alteration on a field wide scale, in: Paper SPE 129564 Prepared for the 17th SPE IOR Symposium, Tulsa, USA, 24–28 April. [Google Scholar]
- Webb K.J., Black C.J.J., Al-Ajeel H. (2004) Low salinity oil recovery – log-inject-log, in: Paper SPE 89379 Prepared for the 14th SPE IOR Symposium, Tulsa, USA, 17–21 April. [Google Scholar]
- Webb K.J., Black C.J.J., Tjetland G. (2005) A laboratory study investigating methods for improving oil recovery in carbonates, in: IPTC 10506, Doha, Qatar. [Google Scholar]
- Yousef A.A., Al-Saleh S., Al-Kaabi A., Al-Jawfi M. (2011) Laboratory investigation of the impact of injection-water salinity and ionic content on oil recovery from carbonate reservoirs, paper SPE 137634, SPE Reserv. Evalu. Eng. 14, 5, 578–593. [CrossRef] [Google Scholar]
- Yousef A.A., Liu J., Blanchard G., Al-Saleh S., Al-Zahrani T., Al-Zahrani R., Al-Tammar H., Al-Mulhim N. (2012) Smart water flooding: Industry’s first field test in carbonate reservoirs, in: Paper SPE 159526 Presented at the SPE ATCE, San Antonio, Texas, USA, 8–10 Oct. [Google Scholar]
- Zaheri S.H., Khalili H., Sharifi M. (2020) Experimental investigation of water composition and salinity effect on the oil recovery in carbonate reservoirs, Oil Gas Sci. Technol. - Rev. IFP Energies nouvelles 75, 21. doi: 10.2516/ogst/2020010. [CrossRef] [Google Scholar]
- Zahid A., Stenby E.H., Shapiro A.A. (2012) Smart waterflooding (high sal/low sal) in carbonate reservoirs, in: Paper SPE 154508 Presented at the EAGE/SPE Europec Annual Conf. & Exh. Held in Copenhagen, Denmark, 4–7 June. [Google Scholar]
- Zhang Y., Sarma H. (2012) Improving Waterflood Recovery Efficiency in Carbonate Reservoirs through Salinity Variations and Ionic Exchanges : A Promisisng Low-Cost “Smart-Waterflood Approach”, in: Paper SPE 161631 Presented at the ADIPEC Held in Abu Dhabi, UAE, 11–14 November. [Google Scholar]
- Zhang P., Tweheyo M.T., Austad T. (2007) Wettability Alteration and Improved Oil Recovery by Spontaneous Imbibition of Seawater in Chalk : Impact of the Potential Determining Ions: Ca2+, Mg2+ and , Colloïds Surf. A Physicochem. Eng. Aspects 301, 199–208. [CrossRef] [Google Scholar]
Open Access
Issue |
Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles
Volume 75, 2020
|
|
---|---|---|
Article Number | 37 | |
Number of page(s) | 17 | |
DOI | https://doi.org/10.2516/ogst/2020030 | |
Published online | 15 June 2020 |
Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.
Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.
Initial download of the metrics may take a while.