Page 241 - Fundamentals of Enhanced Oil and Gas Recovery

P. 241

Waterflooding 229

[34] P.P. Jadhunandan, Effects of Brine Composition, Crude Oil, and Aging Conditions on Wettability
and Oil Recovery, Department of Petroleum Engineering, New Mexico Institute of Mining &
Technology, United States, 1990.
[35] P. Jadhunandan, N.R. Morrow, Effect of wettability on waterflood recovery for crude-oil/brine/
rock systems, SPE Reservoir Eng. 10 (1995) 40 46.
[36] P. Jadhunandan, N. Morrow, Spontaneous imbibition of water by crude oil/brine/rock systems, In
Situ (United States) 15 (1991).
[37] G.-Q. Tang, N.R. Morrow, Influence of brine composition and fines migration on crude oil/
brine/rock interactions and oil recovery, J. Pet. Sci. Eng. 24 (1999) 99 111.
[38] G. Tang, N.R. Morrow, Salinity, temperature, oil composition, and oil recovery by waterflooding,
SPE Reservoir Eng. 12 (1997) 269 276.
[39] Tang, G., 1999. Brine composition and waterflood recovery for selected crude oil/brine/rock
systems.
[40] H.O. Yildiz, N.R. Morrow, Effect of brine composition on recovery of Moutray crude oil by
waterflooding, J. Pet. Sci. Eng. 14 (1996) 159 168.
[41] Webb, K.J., Black, C.J.J., Tjetland, G., 2005. A laboratory study investigating methods for improv-
ing oil recovery in carbonates. In: International Petroleum Technology Conference.
[42] Webb, K., Black, C., Edmonds, I., 2005. Low salinity oil recovery—the role of reservoir condition
corefloods. In: IOR2005-13th European Symposium on Improved Oil Recovery.
[43] Webb, K., Black, C., Al-Ajeel, H., 2003. Low salinity oil recovery—log inject log. In: Middle
East Oil Show. Society of Petroleum Engineers.
[44] 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. In: SPE Western Regional Meeting.
Society of Petroleum Engineers.
[45] J. Sheng, Critical review of low-salinity waterflooding, J. Pet. Sci. Eng. 120 (2014) 216 224.
[46] Zhang, Y., Morrow, N.R., 2006. Comparison of secondary and tertiary recovery with change in
injection brine composition for crude-oil/sandstone combinations. In: SPE/DOE Symposium on
Improved Oil Recovery. Society of Petroleum Engineers.
[47] M. Sharma, P. Filoco, Effect of brine salinity and crude-oil properties on oil recovery and residual
saturations, SPE J. 5 (2000) 293 300.
[48] Zhang, Y., Xie, X., Morrow, N.R., 2007. Waterflood performance by injection of brine with dif-
ferent salinity for reservoir cores. In: SPE Annual Technical Conference and Exhibition. Society of
Petroleum Engineers.
[49] Jerauld, G.R., Webb, K.J., Lin, C.-Y., Seccombe, J., 2006. Modeling low-salinity waterflooding. In:
SPE Annual Technical Conference and Exhibition. Society of Petroleum Engineers.
[50] Buckley, J., Morrow, N., 2010. Improved oil recovery by low salinity waterflooding: a mechanistic
review. In: 11th International Symposium on Evaluation of Wettability and Its Effect on Oil
Recovery. Calgary, pp. 6 9.
[51] A. Lager, K.J. Webb, C. Black, M. Singleton, K.S. Sorbie, Low salinity oil recovery-an experimen-
talinvestigation1, Petrophysics 49 (2008).
[52] 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. In: EUROPEC/EAGE
Conference and Exhibition. Society of Petroleum Engineers.
[53] N. Morrow, J. Buckley, Improved oil recovery by low-salinity waterflooding, J. Pet. Technol. 63
(2011) 106 112.
[54] A. RezaeiDoust, T. Puntervold, S. Strand, T. Austad, Smart water as wettability modifier in carbon-
ate and sandstone: a discussion of similarities/differences in the chemical mechanisms, Energy Fuels
23 (2009) 4479 4485.
[55] Boston, W., Brandner, C., Foster, W., 1969. Recovery of oil by waterflooding from an argillaceous
oil-containing subterranean formation.
[56] Martin, J.C., 1959. The effects of clay on the displacement of heavy oil by water. In: Venezuelan
Annual Meeting. Society of Petroleum Engineers.

236 237 238 239 240 241 242 243 244 245 246