98                                                                      Ramin Moghadasi et al.


                [62] R. Hadlow, Update of industry experience with CO 2 injection, SPE Annual Technical Conference
                   and Exhibition, Society of Petroleum Engineers, Washington, DC, 1992.
                [63] M. Sohrabi, M. Jamiolahmady, A. Al Quraini, Heavy oil recovery by liquid CO2/water injection,
                   in: EUROPEC/EAGE Conference and Exhibition, London, 2007.
                [64] M. Sohrabi, M. Riazi, M. Jamiolahmady, S. Ireland, C. Brown, Enhanced oil recovery and CO 2
                   storage by carbonated water injection, in: International Petroleum Technology Conference, 2009.
                [65] C. Dang, L. Nghiem, N. Nguyen, Z. Chen, Q. Nguyen, Evaluation of CO 2 low salinity water-
                   alternating-gas for enhanced oil recovery, J. Nat. Gas Sci. Eng. 35 (2016) 237 258.
                [66] S.G. Ghedan, Global Laboratory Experience of CO 2  EOR Flooding, Society of Petroleum
                   Engineers, Abu Dhabi, UAE, 2009.
                [67] S.M. Fatemi, M. Sohrabi, Experimental investigation of near-miscible water-alternating-gas injec-
                   tion performance in water-wet and mixed-wet systems, SPE J. 18 (2013) 114 123.
                [68] R.K. Srivastava, S.S. Huang, M. Dong, Laboratory investigation of Weyburn CO miscible flooding,
                   J. Can. Petrol. Technol. 39 (2000) 41 51.
                [69] O. Glass, Generalized minimum miscibility pressure correlation (includes associated papers 15845
                   and 16287), Soc. Petrol. Eng. J. 25 (1985) 927 934.
                [70] A.M. Elsharkawy, F.H. Poettmann, R.L. Christiansen, Measuring CO 2 minimum miscibility pres-
                   sures: slim-tube or rising-bubble method?, Energy Fuels 10 (1996) 443 449.
                [71] H.N.H. Saadawi, Surface facilities for a CO 2  EOR project in Abu Dhabi, in: SPE-127765. SPE
                   EOR Conference at Oil and Gas West Asia, Muscat, 2010.
                [72] A. Amarnath, E.P.R. Institute, Enhanced Oil Recovery Scoping Study, EPRI, Palo Alto, CA, 1999.
                [73] R.K. Srivastava, S.S. Huang, Asphaltene deposition during CO 2 flooding: a laboratory assessment,
                   in: Paper SPE 37468, Proceedings of the 1997 SPE Productions Operations Symposium, OK,
                   1997.
                [74] A. Arshad, A.A. Al-Majed, H. Menouar, A.M. Muhammadain, B. Mtawaa, Carbon dioxide (CO2)
                   miscible flooding in tight oil reservoirs: a case study, in: Proceedings of the Kuwait International
                   Petroleum Conference and Exhibition, Kuwait City, Kuwait.
                [75] A.Y. Zekri, R.A. Almehaideb, S.A. Shedid, Displacement efficiency of supercritical CO 2 flooding
                   in tight carbonate rocks under immiscible conditions, in: SPE Europec/EAGE Annual Conference
                   and Exhibition, Society of Petroleum Engineers, 2006.
                [76] C. Song, D.T. Yang, Optimization of CO 2 flooding schemes for unlocking resources from tight oil
                   formations, in: SPE Canadian Unconventional Resources Conference, Society of Petroleum
                   Engineers, 2012.
                [77] A. Habibi, M.R. Yassin, H. Dehghanpour, D. Bryan, CO2-oil interactions in tight rocks: an experi-
                   mental study, SPE Unconventional Resources Conference, Society of Petroleum Engineers,
                   Calgary, 2017, February.
                [78] K. Joslin, S.G. Ghedan, A.M. Abraham, V. Pathak, EOR in tight reservoirs, technical and economi-
                   cal feasibility, SPE Unconventional Resources Conference, Society of Petroleum Engineers,
                   Calgary, 2017, February.
                [79] P. Luo, W. Luo, S. Li, Effectiveness of miscible and immiscible gas flooding in recovering tight oil
                   from Bakken reservoirs in Saskatchewan, Canada, Fuel 208 (2017) 626 636.
                [80] J. Ma, X. Wang, R. Gao, F. Zeng, C. Huang, P. Tontiwachwuthikul, et al., Enhanced light oil
                   recovery from tight formations through CO 2 huff “n” puff processes, Fuel 154 (2015) 35 44.
                [81] J.J. Sheng, B.L. Herd, Critical review of field EOR projects in shale and tight reservoirs, J. Pet. Sci.
                   Eng. 7 (2017) 147 153.
                [82] W. Yu, E.W. Al-Shalabi, K. Sepehrnoori, A sensitivity study of potential CO 2 injection for
                   enhanced gas recovery in Barnett shale reservoirs, in: SPE Unconventional Resources Conference,
                   Society of Petroleum Engineers, 2014.
                [83] J. Narinesingh, D. Alexander, CO 2 enhanced gas recovery and geologic sequestration in condensate
                   reservoir: a simulation study of the effects of injection pressure on condensate recovery from reser-
                   voir and CO 2 storage efficiency, Energy Procedia 63 (2014) 3107 3115.
                [84] C.M. Oldenburg, K. Pruess, S.M. Benson, Process modeling of CO 2 injection into natural gas
                   reservoirs for carbon sequestration and enhanced gas recovery, Energy Fuels 15 (2001) 293 298.