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CHAPTER 5 Hybrid CO 2 EOR Using Low-Salinity and Smart Waterflood 127
LS-CWI process introducing the polymer flood. Hamouda, A. A., & Maevskiy, E. (2014). Oil recovery mecha-
The hybrid polymer-assisted LS-CWI can enhance oil nism(s) by low salinity brines and their interaction with
production maximizing sweep efficiency and improving chalk. Energy and Fuels, 28(11), 6860e6868. https://
displacement efficiency. doi.org/10.1021/ef501688u.
Hamouda, A. A., & Pranoto, A. (2016). Synergy between low
salinity water flooding and CO 2 for EOR in chalk reservoirs.
REFERENCES In Paper presented at the SPE EOR conference at oil and gas
Al-Shalabi, E. W., Sepehrnoori, K., Delshad, M., & Pope, G. West Asia, Muscat, Oman, 21e23 March. https://doi.org/
(2015). A novel method to model low-salinity-water injec- 10.2118/179781-MS.
tion in carbonate oil reservoirs. SPE Journal, 20(05), Harvey, A. H., & Prausnitz, J. M. (1989). Thermodynamics of
1154e1166. https://doi.org/10.2118/169674-PA. high-pressure aqueous systems containing gases and salts.
Al-Shalabi, E. W., Sepehrnoori, K., & Pope, G. A. (2014). AIChE Journal, 35(4), 635e644. https://doi.org/10.1002/
Modeling the combined effect of injecting low salinity aic.690350413.
water and carbon dioxide on oil recovery from carbonate Hickok, C. W., Christensen, R. J., & Ramsay, H. J., Jr. (1960).
cores. In Paper presented at the international petroleum technol- Progress review of the K&S carbonated waterflood project.
ogy conference, Kuala Lumpur, Malaysia, 10e12 December. Journal of Petroleum Technology, 12(12), 20e24. https://
https://doi.org/10.2523/IPTC-17862-MS. doi.org/10.2118/1474-G.
Al-Shalabi, E. W., Sepehrnoori, K., & Pope, G. (2016). Numer- Hickok, C. W., & Ramsay, H. J., Jr. (1962). Case histories of
ical modeling of combined low salinity water and carbon carbonated waterfloods in dewey-bartlesville field. In Paper
dioxide in carbonate cores. Journal of Petroleum Science and presented at the SPE secondary recovery symposium, Wichita
Engineering, 137, 157e171. https://doi.org/10.1016/ Falls, Texas, 7e8 May. https://doi.org/10.2118/333-MS.
j.petrol.2015.11.021. Hjelmeland, O. S., & Larrondo, L. E. (1986). Experimental
investigation of the effects of temperature, pressure, and
Aleidan, A. A., & Mamora, D. D. (2010). SWACO 2 and WACO 2
efficiency improvement in carbonate cores by lowering crude oil composition on interfacial properties. SPE Reser-
water salinity. In Paper presented at the Canadian unconven- voir Engineering, 1(04), 321e328. https://doi.org/10.2118/
tional resources and international petroleum conference, Calgary, 12124-PA.
Alberta, Canada, 19e21 October. https://doi.org/10.2118/ Holm, W. L. (1987). Evolution of the carbon dioxide flooding
137548-MS. processes. Journal of Petroleum Technology, 39(11),
Bai, J.-M., Fan, W.-Y., Nan, G.-Z., Li, S.-P., & Bao-Shi, Y. (2010). 1337e1342. https://doi.org/10.2118/17134-PA.
Influence of interaction between heavy oil components and Holm, L. W., & O’Brien, L. J. (1971). Carbon dioxide test at the
petroleum sulfonate on the oilewater interfacial tension. mead-strawn field. Journal of Petroleum Technology, 23(04),
Journal of Dispersion Science and Technology, 31(4), 431e442. https://doi.org/10.2118/3103-PA.
551e556. https://doi.org/10.1080/01932690903167475. Jarrell, P. M., Fox, C. E., Stein, M. H., & Webb, S. L. (2002).
Baker, L. E. (1988). Three-phase relative permeability correla- Practical aspects of CO₂ flooding, SPE monograph series.
tions. In Paper presented at the SPE Enhanced oil recovery Richardson, Tex: Henry L. Doherty Memorial Fund of
symposium, Tulsa, Oklahoma, 16e21 April. https://doi.org/ AIME, Society of Petroleum Engineers.
10.2118/17369-MS. Jiang, H., Nuryaningsih, L., & Adidharma, H. (2010). The
Caudle, B. H., & Dyes, A. B. (1958). Improving miscible displace- effect of salinity of injection brine on water alternating
ment by gas-water injection. Society of Petroleum Engineers. gas performance in tertiary miscible carbon dioxide flood-
Chang, Y.-B., Coats, B. K., & Nolen, J. S. (1998). A compositional ing: Experimental study. In Paper presented at the SPE western
model for CO 2 floods including CO 2 solubility in water. SPE regional meeting, Anaheim, California, USA, 27e29 May.
Reservoir Evaluation and Engineering, 1(02), 155e160. https:// https://doi.org/10.2118/132369-MS.
doi.org/10.2118/35164-PA. Kechut, N. I., Sohrabi, M., & Jamiolahmady, M. (2011). Exper-
Christensen, J. R., Stenby, E. H., & Skauge, A. (2001). Review of imental and numerical evaluation of carbonated water
WAG field experience. SPE Reservoir Evaluation and Engineer- injection (CWI) for improved oil recovery and CO 2 storage.
ing, 4(02), 97e106. https://doi.org/10.2118/71203-PA. In Paper presented at the SPE EUROPEC/EAGE annual confer-
Dang, C. T. Q., Nghiem, L. X., Chen, Z., Nguyen, Q. P., & ence and exhibition, Vienna, Austria, 23e26 May. https://
Nguyen, N. T. B. (2013). State-of-the art low salinity doi.org/10.2118/143005-MS.
waterflooding for enhanced oil recovery. In Paper presented Kilybay, A., Ghosh, B., Chacko Thomas, N., & Aras, P. (2016).
at the SPE Asia pacific oil and gas conference and exhibition, Hybrid EOR technology: Carbonated water and smart water
Jakarta, Indonesia, 22e24 October. https://doi.org/10.2118/ improved recovery in oil wet carbonate formation. In Paper
165903-MS. presented at the SPE annual Caspian technical conference &
Dang, C. T. Q., Nghiem, L. X., Chen, Z., Nguyen, N. T. B., & exhibition, Astana, Kazakhstan, 1e3 November. https://
Nguyen, Q. P. (2014). CO 2 low salinity water alternating doi.org/10.2118/182567-MS.
gas: A new promising approach for enhanced oil recovery. Kilybay, A., Ghosh, B., Chacko Thomas, N., & Sulemana, N. T.
In Paper presented at the SPE improved oil recovery symposium, (2017). Hybrid EOR technology: Carbonated water-smart
Tulsa, Oklahoma, USA, 12e16 April. https://doi.org/ water flood improved recovery in oil wet carbonate forma-
10.2118/169071-MS. tion: Part-II. In Paper presented at the SPE oil and gas India
