Open Access
Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles
Volume 74, 2019
Numéro d'article 26
Nombre de pages 16
Publié en ligne 11 mars 2019
  • Alberta Energy Regulator (2014) AER database: Tour reports – East Pembina field wells. [Google Scholar]
  • Bell J.S., Price P.R., McLellon P.J. (1994) In-situ stress in the Western Canada Sedimentary Basin, in: Geological Atlas of the Western Canada Sedimentary Basin, Mossop G.D., Shetsen I. (eds), Canadian Society of Petroleum Geologists, Alberta Research Council, pp. 439–446. [Google Scholar]
  • Braunberger W.F., Hall R.L. (2001) Ammonoid faunas from the Cardium formation (Turonian-Coniacian, Upper Creataceous) and contiguous units, Alberta, Canada: I. Scaphitidae, Can. J. Earth Sci. 38, 333–346. DOI: 10.1139/cjes-38-3-333. [Google Scholar]
  • Butrenchuk E.W., Cornish S.A., Leggit S.M., Mills M.M. (1995) The impact of facies on reservoir performance: Pembina Cardium Reservoir, Alberta, Presented at: CSPG/CWLS 1995 core session: The economic integration of geology and formation evaluation, Canadian Society of Petroleum Geologists, Calgary, Alberta, Canada, pp. 1–32. [Google Scholar]
  • Clarkson C.R., Pedersen P.K. (2011) Production analysis of western Canadian unconventional light oil plays, Paper CSUG/SPE 149005. Presented at: the Canadian Unconventional Resources Conference Calgary, 15–17 November. [Google Scholar]
  • Fic J.D. (2013) Characterization of the lower Shoreface to offshore reservoir facies of the Cardium formation in East Pembina, Alberta, MSc Thesis, Retrieved from [Google Scholar]
  • Gillund G.N. (1969) Review of the Lobstick Cardium miscible flood, J. Can. Pet. Tech. 8, 66–74. [Google Scholar]
  • Gough D.I., Bell J.S. (1981) Stress orientations from oil-well fractures in Alberta and Texas, Can. J. Earth Sci. 18, 638–645. [Google Scholar]
  • Gough D.I., Fordjor C.K., Bell J.S. (1983) A stress province boundary and tractions on the North American plate, Nature 305, 619–621, Letters to Nature. [Google Scholar]
  • Hassan D. (1982) A method for predicting hydraulic fracture azimuth and the implications thereof to improve hydrocarbon recovery, 33rd Annual Technical Meeting of the Petroleum Society of Canadian institute of Mining and Metallurgy, Calgary, AB, Paper 82-33-19. [Google Scholar]
  • Kaviani D., Jensen J.L. (2010) Reliable connectivity evaluation in conventional and heavy oil reservoirs: A case study from Senlac heavy oil pool, western Saskatchewan, Paper SPE-137504. Presented at: the Canadian Unconventional Resources and International Petroleum Conference Calgary, Alberta, 19–21 October. DOI: 10.2118/137504-MS. [Google Scholar]
  • Kaviani D., Soroush M., Jensen J.L. (2014) How accurate are capacitance model connectivity estimates? J. Pet. Sci. Eng. 122, 439–452. [Google Scholar]
  • Kloepfer C.V., Griffith J.D. (1965) Solvent placement improvement by pre-injection of water – Lobstick Cardium Unit, Pembina field, J.Can. Pet. Tech. 4, 30–35. [CrossRef] [Google Scholar]
  • Krause F.F., Collins H.N., Nelson D.A., Machemer S.D., French P.R. (1987) Multiscale anatomy of a reservoir: geological characterization of Pembina-Cardium pool, West-Central Alberta, Canada, Am. Assoc. Pet. Geol. Bull. 71, 10, 1233–1260. [Google Scholar]
  • Krause F.F., Deutsch K.B., Joiner S.D., Barlcay J.E., Hall R.L., Hills L.V. (1994) Cretaceous Cardium formation of the western Canada sedimentary basin, Geological Atlas of the Western Canada Sedimentary Basin. pp. 375–385. Retrieved September 12, 2017, from [Google Scholar]
  • Liang X., Weber D., Lake L.W., Edgar T.F., Sayarpour M., Al-Yousef A. (2007) Optimization of oil production based on a capacitance model of production and injection rates. SPE-107713-MS, DOI: 10.2118/107713-MS. [Google Scholar]
  • McLeod J.G.F. (1987) Successful injection pattern alternation, Pembina J lease, J. Can. Pet. Tech. 17, 51–55. [Google Scholar]
  • Mirzayev M., Riazi N., Cronkwright D., Jensen J.L., Pedersen P.K. (2017) Determining well-to-well connectivity using a modified capacitance model, seismic, and geology for a Bakken Waterflood, J. Pet. Sci. Eng. 152, 611–627. [Google Scholar]
  • Noetinger B. (2016) About the determination of quasi steady state storativity and connectivity matrix of wells in 3D heterogeneous formations, Math. Geosci. 48, 6, 641–662. [Google Scholar]
  • Palmer I.D., Moschovidis Z.A., Cameron J.R. (2007) Modeling shear failure and stimulation of the Barnett shale after hydraulic fracturing, SPE-106113-MS. Presented at: the SPE Hydraulic Fracturing Technology Conference, College Station, Texas, 29–31 January. DOI: 10.2118/106113-MS. [Google Scholar]
  • Soroush M., Kaviani D., Jensen J.L. (2014) Interwell Connectivity evaluation in cases of changing skin and frequent production interruptions, J. Pet. Sci. Eng. 122, 616–630. [Google Scholar]
  • Weber K.J., van Geuns L.C. (1990) Framework for constructing clastic reservoir simulation models, J. Pet. Tech. 42, 10, 1248–1297. [CrossRef] [Google Scholar]
  • Yousef A.A., Gentil P.H., Jensen J.L., Lake L.W. (2006) A capacitance model to infer interwell connectivity from production and injection rate fluctuations, SPE Res. Eval. Eng. 9, 6, 630–646. DOI: 10.2118/95322-PA. [CrossRef] [Google Scholar]

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