- Keijzer, P.P.M. and de Vries, A.S. (1990) Imbibition of Surfactant Solutions. SPE 20222 presented at the 1990 SPE/DOE 7th Symp. on Enhanced Oil Recovery, Tulsa, OK, April, 22-25. [Google Scholar]
- Flumerfelt, R.W. et al. (1993) A Cyclic Surfactant-Based Imbibition/Solution Gas Drive Process for Low-Permeability, Fractured Reservoirs. Paper SPE 26373 presented at the 1993 SPE Ann. Tech. Conf. and Exh., Houston, TX, Oct., 3-6. [Google Scholar]
- Cuiec, L., Bourbiaux, B. and Kalaydjian, F. (1994) Oil Recovery by Imbibition in Low-Permeability Chalk. SPEFE (Sept.) 200. [Google Scholar]
- Schechter, D.S.,Zhou, D. and Orr, F.M. (1994) Low IFT Drainage and Imbibition. J. Pet. Sci. and Eng., 11, 283. [CrossRef] [Google Scholar]
- Babadagli, T. (1996) Temperature Effect on Heavy-Oil Recovery Imbibition in Fractured Reservoirs. J. Pet. Sci. and Tech., 14, 197. [Google Scholar]
- Al-Lawati, S. and Saleh, S. (1996) Oil Recovery in Fractured Oil Reservoirs by Low IFT Imbibition Process. Paper SPE 36688 presented at the 1996 SPE Annual Tech. Conf. and Exh., Denver, CO, Oct. 6-9. [Google Scholar]
- Austad, T. and Milter, J. (1997) Spontaneous Imbibition of Water Into Low Permeable Chalk at Different Wettabilities Using Surfactants. Paper SPE 37236 presented at the 1997 SPE Int. Symp. On Oilfield Chemistry, Houston, TX, Feb. 18-21. [Google Scholar]
- Milter, J. and Austad, T. (1996) Chemical Flooding of Oil Reservoirs 6. Evaluation of the Mechanism for Oil Expulsion by Spontaneous Imbibition of Brine With and Without Surfactant in Water-Wet, Low-Permeable, Chalk Material. Coll. and Surf. A: Phys. and Eng. Aspects, 113, 269. [CrossRef] [Google Scholar]
- Austad, T. et al. (1998) Chemical Flooding of Oil Reservoirs 8. Spontaneous Oil Expulsion From Oil- and Water-Wet Low-Permeable Chalk Material by Imbibition of Aqueous Surfactant Solutions. Coll. and Surf. A: Phys. and Eng. Aspects, 137, 117. [CrossRef] [Google Scholar]
- Babadagli, T. (2001) Improving Matrix-Fracture Transfer Using Chemicals and Thermal Methods in Fractured Heavy- Oil Reservoirs, CIPC 2001-130, 52nd Annual Tech. Meet., Canadian Int. Petr. Conf., June 12-14, Calgary, Alberta, Canada. [Google Scholar]
- Spinler, E.A. (2000) Enhancement of Oil Recovery Using a Low Concentration of Surfactant to Improve Spontaneous and Forced Imbibition in Chalk. Paper SPE 59290 presented at the 2000 SPE/DOE Imp. Oil. Rec. Symp., Tulsa, OK, April, 3-5. [Google Scholar]
- Chen, H.L. et al. (2000) Laboratory Monitoring of Surfactant Imbibition Using Computerized Tomography. Paper SPE 59006 presented at the 2000 SPE Int. Petr. Conf. and Exh., Veracruz, Mexico, Feb., 1-3. [Google Scholar]
- Babadagli, T. (2003) Selection of Proper Enhanced Oil Recovery Fluid for Efficient Matrix Recovery in Fractured Oil Reservoirs. Coll. and Surf. A: Physic. and Eng. Aspects, 223, 157-175. [CrossRef] [Google Scholar]
- Babadagli, T. (2003) Evaluation of EOR Methods for Heavy- Oil Recovery in Naturally Fractured Reservoirs. J. of Petroleum Science and Eng., 37, 25. [CrossRef] [Google Scholar]
- Babadagli, T. (2001) Scaling of Co-Current and Counter- Current Capillary Imbibition for Surfactant and Polymer Injection in Naturally Fractured Reservoirs. SPEJ (Dec.), 6, 465. [CrossRef] [Google Scholar]
- Alveskog, P. L.,Holt, T. and Torsaeter, O. (1998) The Effect of Surfactant Concentration on the Amott Wettability Index and Residual Oil Saturation. J. of Petr. Sci. and Eng., 20, 247. [Google Scholar]
- Standnes, D.C., and Austad, T. (2000) Wettability Alteration in Chalk 2. Mechanism for Wettability Alteration from Oil- Wet to Water-Wet Using Surfactants. J. of Petr. Sci. and Eng., 28, 123. [CrossRef] [Google Scholar]
- Baldwin, B.A. and Spinler, E.A. (2002) In Situ Saturation Development During Spontaneous Imbibition. J. of Petroleum Sci. and Eng., 35, 23. [CrossRef] [Google Scholar]
- Weisbord, N.,Niemet, M.R. and Selker, J.S. (2002) Imbibition of Saline Solutions into Dry and Prewetted Porous Media. Adv. in Water Res., 25, 841. [CrossRef] [Google Scholar]
- Li, K., Chow, K. and Horne, R. (2002) Effect of Initial Water Saturation on Spontaneous Water Imbibition. Paper SPE 76727 presented at the 2002 SPE Western Reg. Meet., Anchorage, Alaska, May, 20-22. [Google Scholar]
- Mattax, C.C. and Kyte, J.R. (1962) Imbibition Oil Recovery from Fractured Water Drive Reservoirs. Trans. AIME, 225, 177. [Google Scholar]
- Babadagli, T. (2002) Dynamics of Capillary Imbibition When Surfactant, Polymer and Hot Water Are Used as Aqueous Phase. J. Coll. and Int. Sci., 246, 203-213. [CrossRef] [Google Scholar]
- Babadagli, T. and Boluk, Y. (2005) Oil Recovery Performances of Surfactant Solutions by Capillary Imbibition. J. Coll. and Int. Sci., 282, 158-171. [CrossRef] [Google Scholar]
- Lefebvre Du Prey, E. (1978) Gravity and Capillarity Effects on Imbibition in Porous Media. SPEJ (June), 195. [Google Scholar]
- Iffly, R., Rousselet, D.C. and Vermeulen, J.L. (1972) Fundamental Study of Imbibition in Fissured Oil Fields, SPE 4102 presented at the 1972 SPE Annual Fall Meet, San Antonio, TX, Oct. 8-11. [Google Scholar]
- Zhang, X., Morrow, N. and Ma, S. (1996) Experimental Verification of a Modified Scaling Group for Spontaneous Imbibition. SPERE (Nov.), 273. [Google Scholar]
- Ma, S.,Morrow, N.R. and Zhang, X. (1997) Generalized Scaling of Spontaneous Imbibition Data For Strongly Water- Wet Systems. J. Pet. Sci. and Tech., 18, 165. [Google Scholar]
Open Access
Issue |
Oil & Gas Science and Technology - Rev. IFP
Volume 60, Number 4, July-August 2005
Dossier: Software Interoperability for Petroleum Applications
|
|
---|---|---|
Page(s) | 697 - 710 | |
DOI | https://doi.org/10.2516/ogst:2005049 | |
Published online | 01 December 2006 |
Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.
Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.
Initial download of the metrics may take a while.