References
- Bolouri, S. H., and E. Ghoodjani. 2012. Permeability impairment study due to asphaltene deposition: experimental and modeling approach. Transport in Porous Media 91:999–1012.
- Ennin, E., and R. B. Grigg. 2016. CO2 flooding and minimum miscibility pressure study in Texas Farnsworth Field. In SPE Trinidad and Tobago section energy resources conference, Society of Petroleum Engineers.
- Gao, H., Y. L. Liu, Z. Zhang, B. L. Niu, and H. Z. Li. 2015. Impact of secondary and tertiary floods on microscopic residual oil distribution in medium-to-high permeability cores with NMR technique. Energy & Fuels 29: 4721–9.
- Hayashi, Y., and H. Okabe. 2010. Experimental investigation of asphaltene induced permeability reduction. In SPE EOR Conference at Oil & Gas West Asia, Society of Petroleum Engineers.
- Ibrahim, H. H., and R. O. Idem. 2004. CO2-Miscible flooding for three Saskatchewan crude oils: Interrelationships between asphaltene precipitation inhibitor effectiveness, asphaltenes characteristics, and precipitation behavior. Energy & Fuels 18:743–54.
- Nguyen, P., H. Fadaei, and D. Sinton. 2014. Pore-scale assessment of nanoparticle-stabilized CO2 foam for enhanced oil recovery. Energy & Fuels 28:6221–7.
- Sarma, H. K. 2003. Can we ignore asphaltene in a gas injection project for light-oils? In SPE international improved oil recovery conference in Asia Pacific, Society of Petroleum Engineers.
- Sim, S. S. K., K. Okatsu, K. Takabayashi, and D. B. Fisher. 2005. Asphaltene-induced formation damage: Effect of asphaltene particle size and core permeability. In SPE Annual Technical Conference and Exhibition, Society of Petroleum Engineers.
- Srivastava, R. K., S. S. Huang, and M. Dong. 1999. Asphaltene deposition during CO2 flooding. SPE Production & Facilities 14:235–45.
- Wang, X. Q., and Y. A. Gu. 2011. Oil recovery and permeability reduction of a tight sandstone reservoir in immiscible and miscible CO2 flooding processes. Industrial & Engineering Chemistry Research 50:2388–99.