Open Access
Issue
Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles
Volume 74, 2019
Article Number 59
Number of page(s) 10
DOI https://doi.org/10.2516/ogst/2019018
Published online 21 June 2019
  • Abrishami Y., Hatamian H. (1996) Phase behaviour of fluids in multiple contact processes with CO2, N2 and their mixture. SPE-36295. [Google Scholar]
  • Agarwal R.K., Li Y.K., Nghlem L. (1990) A regression technique with dynamic parameter selection for phase-behavior matching, SPE Reserv. Eng. 5, 1, 115–120. [CrossRef] [Google Scholar]
  • Al-Hadhrami A.K., Davis D.W., Deinum G., Soek H. (December 2007) The design of the first miscible sour gasflood project in Oman, International Petroleum Technology Conference, Dubai, U. A. E., 4–6 December 2007. Document ID: IPTC-11396. [Google Scholar]
  • Belhaj H., Abukhalifeh H., Javid K. (2013) Miscible oil recovery utilizing N2 and/or HC gases in CO2 injection, J. Pet. Sci. Eng. 111, 144–152. [CrossRef] [Google Scholar]
  • Gardner J.W., Orr F.M., Patel P.D. (1981) The effect of phase behavior on CO2-flood displacement efficiency, J. Pet. Technol. 2067–2081. [CrossRef] [Google Scholar]
  • Johns R.T., Ahmadi K., Zhou D., Yan M. (2010) A practical method for minimum miscibility pressure estimation of contaminated CO2 mixtures, SPE Reserv. Eval. Eng. 13, 764–772. [CrossRef] [Google Scholar]
  • Johns R.T., Yuan H., Dindoruk B. (2002) Quantification of displacement mechanisms in multicomponent gasfloods. SPE-77696. [Google Scholar]
  • Luo E.H., Hu Y.L., Li B.Z., Zhu W.P. (2013a) Practices of CO2 EOR in China, Special Oil Gas Reserv. 20, 2, 1–7. (in Chinese). [Google Scholar]
  • Luo E.H., Hu Y.L., Li B.Z., Wang J.L., Wang Z.B. (2013b) Methods of improving sweep volume by mobility control of CO2 flood in foreign countries, Oilfield Chem. 30, 4, 613–619. (in Chinese). [Google Scholar]
  • Luo E.H., Zhao L., Fan Z.F., Wang J.J. (2018) A study of PVT physical properties characteristic and compositional numerical simulation for sour gas injection. In review. [Google Scholar]
  • Metcalfe R.S., Fussell D.D., Shelton J.L. (1973) A multicell equilibrium separation model for the study of multiple contact miscibility in rich-gas drives, SPE J. 13, 3, 147–155. [Google Scholar]
  • Nutakki R., Hamoodi A.N., Li Y.-K., Nghiem L.X. (1991) Experimental analysis, modelling, and interpretation of recovery mechanisms in enriched-gas processes. SPE-22634. [Google Scholar]
  • Pederson K.S., Fjellerup J., Thomassen P., Fredenslund A. (1986) Studies of gas injection into oil reservoirs by a cell-to-cell simulation model. SPE-15599. [Google Scholar]
  • Stalkup F.I. (1987) Displacement behavior of the condensing/vaporizing gas drive process. SPE-16715. [Google Scholar]
  • Tang Y., Sun L., Zhou Y.Y., Li S.L., Sun L.T., Du Z.M. (2005) Mechanism evluation of condensing/vaporizing miscible flooding with hydrocarbon-rich gas injection, Pet. Explor. Dev. 32, 2, 133–136. [Google Scholar]
  • Urazgaliyeva G., King G.R., Darmentaev S., Tursinbayeva D., Dunger D., Howery R., Zalan T., Lindsell K., Iskakov E., Turymova A., Jenkins S., Walker C., Bateman P., Aitzhanov A. (2014) Tengiz sour gas injection project: An update, SPE Annual Caspian Technical and Exhibition, Astana, Kazakhstan, 12–14 Bivermber 2014. Document ID: SPE-172284. [Google Scholar]
  • Wang S., Yeskaiyr B., Walker C. (October 2014) A sector model for IOR/EOR process evaluation, SPE Annual Technical Conference and Exhibition, Amsterdam, The Netherlands, 27–29 October 2014. Document ID: SPE-170605. [Google Scholar]
  • Zhang C.S., Fan Z.F., Xu A.Z., Zhao L., Zhao L.D., Luo E.H. (2017) Study on miscible mechanism of recycle dissolved gas in volatile oil reservoir with acid gas, Reserv. Eval. Dev. 7, 2, 41–46. [Google Scholar]
  • Zick A.A. (1986) A combined condensing/vaporizing mechanism in the displacement of oil by enriched gases. SPE-15493. [Google Scholar]

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