Acknowledgement
Supported by : Natural Science Foundation of China
References
- Alvarado, D. A., & Marseden, S. S. (1979). Flow of oil-in-water emulsions through tubes and porous media [J]. Society of Petroleum Engineers Journal, 19, 369-377. https://doi.org/10.2118/5859-PA
- Amaefule, J. O., Altunbay, M., Tiab, D., Kersey, D. G., & Keelan, D. K. (1993). Enhanced reservoir description: Using core and Log data to identify hydraulic (flow) units and predict permeability in uncored Intervals/Wells [J]. SPE-26436, presented at the 68th Annual SPE conference and exhibition. Houston, TX, October 3-6.
-
Ampomah, W., Balch, R. S., Cather, M., Rose-Coss, D., Dai, Z., Heath, J. ... Mozley, P. (2016). Evaluation of
$CO_2$ storage mechanisms in$CO_2$ enhanced oil recovery sites. Energy and Fuels, 30(10), 8545-8555. https://doi.org/10.1021/acs.energyfuels.6b01888 - Beeher, Paul (1957). Emulsions: Theoryan dparetiee [M]. Reinhold.
- Chin, H. B., & Han, C. D. (1980). Studies on droplet deformation and breakup: Droplet breakup in extensional flow [J]. Journal of Rheology, 24(2), 1-37. https://doi.org/10.1122/1.549554
- Clark, S. R., Pitts, M. J., & Smith, S. M. (1988). Design and application of an alkaline- surfactant- polymer recovery system to the WestKiehl Field [J]. SPE, 515-522.
- Cuthiell, D., & Green, K. (1995). The in situ formation of heavy oil emulsions [J]. SPE-30319, 675-683.
- Devereux, O. R. (1974). Emulsion flow in porous solids II. experiments with a crude oil-in-water emulsion in porous sandstone [J]. The Chemical Engineering Journal, 129-136.
- Elgibaly, A. A. M., Nashawi, I. S., & Tantawy, M. A. (1997). Rheological characterization of Kuwaiti oil-lakes oils andtheiremulsion [R] SPE 7259.
- Hong, J. C., Wang, F. L., Liu, L., & Liu, Z. H. (2001). Emulsification of three yuan composite fiooding and its effect on productivity of well [J]. Journal of Daqing Petroleum Geology and Development, 20(2), 23-25.
- Lei, Zhengdong, Song, Jie, & Zhu, Bin (2011). Fine numerical simulation of alkaline-surfactant-polymer flooding considering emulsion and alkaline scale mechanism [J]. SPE 148261.
- Li, S. J., Yang, Z. Y., Song, K. P., & Kang, W. L. (2003). The effect of emulsification on enhanced oil recovery in three element composite flooding [J]. Journal of the petroleum society, 24(5), 71-73.
- Li, X. M., Yang, S. L., & Lang, Z. X. (2004). A mathematical model of three element composite flooding considering emulsion action [J]. Journal of University of Science & Technology China, 34, 27-30.
- Luo, X. H., Lin, M. Q., & Wu, Z. L. (2003). Emulsification of crude oil in three element composite flooding [J]. Journal of Fine Chemical Industry, 20(2), 23-25.
- Ma, D. S., Liu, W. L., Wang, Q., & Sun, Y. Y. (2013). A mathematical model of composite flooding with oil in water emulsion [J]. Journal of China University of petroleum, 37(6), 100-105.
- McAuliffe, C. D. (1973). Oil-in-water emulsions and their flow properties in porous media [J]. Journal of Petroleum Technology, 727-733.
- Pal, R., & Rhodes, E. (1981). Viscosity/concentration relationships for emulsions [J]. Journal of Rheology, 33(7), 1021-1045.
- Schular, P. J., Lerner, R. M., & Kuehne, D. L. (1986). Improving chemical flood efficiently with micellar- alkaline-polymer processes [J]. SPE, 135-152.
- Song, J., & Zhu, B. (2004). Viscosity model of petroleum emulsions [J]. Journal of Petroleum Exploration and Development, 31, 30-35.
- Soo, H., & Radke, C. J. (1984). Velocity effects in emulsion flow through porous media [J]. Journal of Colloid and Interface Science, 102(2), 462-476. https://doi.org/10.1016/0021-9797(84)90249-2
- Soo, H., & Radke, C. J. (1986). A filtration model for the flow of dilute, stable emulsion in porous media [J]. Chemical Engineering Science, 41(2), 263-281. https://doi.org/10.1016/0009-2509(86)87007-5
- Wang, D.-M., Chengm, J.-C., Wu, J.-Z. (1999). Summary of alkaline surfactant polymer flooding in Daqing oil field [C]. Improved Oil Recovery Conference. Malaysia: SPE57288, 10, 1-16.
- Wang, F. Q., Qu, Z. H., & Kong, L. R. (2006). Study on oil displacement mechanism of emulsions using microscopic models [J]. Journal of Petroleum Exploration and Development, 33(2), 221-223.
- Wang, T., Zhang, Z. Q., Wang, F., Feng, L. J., & Yang, S. (2014). Stability and rheological properties of crude oil emulsions [J]. Journal of Oil Field Chemistry, 31(4), 601-604.
- Wang, Z., Yu, T., Lin, X., Wang, X., & Su, L. (2016). Chemicals loss and the effect on formation damage in reservoirs with ASP flooding enhanced oil recovery. Journal of Natural Gas Science and Engineering, 33, 1381-1389. https://doi.org/10.1016/j.jngse.2016.06.048
- Zhang, Z. H., Yang, Z. Y., & Kang, W. L. (2000). Three element composite emulsion on EOR effect research [J]. Journal of Daily Chemical Science, 20(1), 124-127.
-
Zhang, R., Yin, X., Winterfeld, P. H., & Wu, Y. S. (2016). A fully coupled thermalhydrological-mechanical-chemical model for
$CO_2$ geological sequestration. Journal of Natural Gas Science and Engineering, 28, 280-304. https://doi.org/10.1016/j.jngse.2015.11.037 - Zhao, F. L., Yue, X. A., Hou, J. R., & Li, K. (2008). ASP system and emulsification of Daqing crude oil and its influencing factors [J]. Journal of Oil and gas geology and recovery ratio, 15(3), 66-69.
- Zhengdong, L., Yuan, S., & Song, J. (2008). A mathematical model for emulsion mobilization and its effect on EOR during ASP flooding [J]. SPE-113145.