Open Access
Numéro
Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles
Volume 71, Numéro 2, March–April 2016
Numéro d'article 26
Nombre de pages 14
DOI https://doi.org/10.2516/ogst/2014058
Publié en ligne 17 mars 2015
  • Abukhalifeh H., Upreti S.R., Lohi A. (2011) Permeability effect on the concentration-dependent propane dispersion coefficient in VAPEX, International Journal of Oil, Gas and Coal Technology 4, 11, 64–78. [CrossRef] [Google Scholar]
  • Ahmadloo F., Asghari K., Henni A., Freitag N.P. (2011) Experimental results and analytical modeling of solvent leaching gravity drainage phenomenon in heavy oil reservoirs, SPE Annual Conference and Exhibition, Denver, Colorado, USA, 30 Oct.-2 Nov. [Google Scholar]
  • Allen J.C. (1974) Gaseous solvent heavy oil recovery, US Patent 1027851. [Google Scholar]
  • Allen J.C. (1976) Multiple solvent heavy oil recovery method, US Patent 3954141. [Google Scholar]
  • Butler R.M., Jiang Q. (2000) Improved recovery of heavy oil by VAPEX with widely spaced horizontal injectors and producers, Journal of Canadian Petroleum Technology 39, 1, 48–56. [Google Scholar]
  • Butler R.M., Jiang Q. (1996) Selection of well configuration in VAPEX process, SPE Conference 37145, Calgary, Canada AB, 18-20 Nov. [Google Scholar]
  • Butler R.M., Mokrys I.J. (1991) A new process (VAPEX) for recovering heavy oils using hot water and hydrocarbon vapour, Journal of Canadian Petroleum Technology 30, 1, 97–106. [CrossRef] [Google Scholar]
  • Butler R.M., Mokrys I.J. (1989) Solvent analogue model of steam-assisted gravity drainage, AOSTRA Journal of Research 5, 1, 17–32. [Google Scholar]
  • Das S.K. (1995) In situ recovery of heavy oil and bitumen using vapourized hydrocarbon solvents, PhD Thesis, University of Calgary. [Google Scholar]
  • James L.A., Rezaie N., Chatzis I. (2007) VAPEX, warm VAPEX, and hybrid VAPEX—the state of enhanced oil recovery for in situ heavy oils in Canada, Journal of Canadian Petroleum Technology 47, 4, 1–7. [Google Scholar]
  • Luhning R.W., Das S.K., Bakker J., Engleman J.R., Wong S., Fisher L.J., Grabowski J., Sullivan L.A., Boyle H.A. (2003) Full scale VAPEX process—Climate change advantage and economic consequences, Journal of Canadian Petroleum Technology 42, 2, 29–34. [Google Scholar]
  • Roopa I., Dawe R.A. (2007) VAPEX—Gravity-assisted film drainage for heavy oil recovery, Journal of Petroleum Science and Technology 25, 5, 645–658. [CrossRef] [Google Scholar]
  • Yazdani A. (2007) Physical and numerical modeling of permeability and drainage height effects in VAPEX, PhD Thesis, University of Calgary. [Google Scholar]
  • Yazdani A., Maini B.B. (2005) Effect of drainage height and grain size on production rates in the Vapex process: Experimental study, SPE Reservoir Engineering Journal 8, 3, 205–213. [CrossRef] [Google Scholar]

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