A new method for the experimental determination of three-phase relative permeabilities
Abstract
Petroleum reservoirs under primary, secondary or tertiary recovery processes usually experience simultaneous flow of three fluids phases (oil, water and gas). Reports on some mathematical models for calculating three-phase relative permeability are available in the Literature. Nevertheless, many of these models were designed based on certain experimental conditions and reservoir rocks and fluids. Therefore, special care has to be taken when applying them to specific reservoirs. At the laboratory level, three-phase relative permeability can be calculated using experimental unsteady-state or steady state methodologies. This paper proposes an unsteady-state methodology to evaluate three-phase relative permeability using the equipment available at the petrophysical analysis Laboratory of the Instituto Colombiano del Petróleo (ICP) of Ecopetrol S.A. Improvements to the equipment were effected in order to achieve accuracy in the unsteady-state measurement of three-phase relative permeability. The target of improvements was directed toward to the attainment of two objectives:1) the modification of the equipment to obtain more reliable experimental data and 2) the appropriate interpretation of the data obtained. Special attention was given to the differential pressure and uncertainty measurement in the determination of fluid saturation in the rock samples. Three experiments for three-phase relative permeability were conducted using a sample A and reservoir rock from the Colombian Foothills. Fluid tests included the utilization of synthetic brine, mineral oil, reservoir crude oil and nitrogen. Two runs were conducted at the laboratory conditions while one run was conducted at reservoir conditions. Experimental results of these tests were compared using 16 mathematical models of three-phase relative permeability. For the three-phase relative permeability to oil, the best correlations between experimental data and tests using Blunt, Hustad Hasen, and Baker's models were obtained at oil saturations between 40% and 70%.
References
Aziz, K., & Settari, A. (1973). Petroleum Reservoir Simulation. London: Applied Science Publishers.
Baker, L .E. (1993). Three-Phase Relative Permeability of Water-Wet, Intermediate-Wet, and Oil-Wet Sandstone. Seventh European Improved Oil Recovery Symposium, Moscow, Russia.
Bear, J. (1972). Dynamics of Fluids in Porous Media. Environmental Science Series, Elsevier, New York.
Blunt, M. J. (2000). An Empirical Model for Three-Phase Relative Permeability. Soc. Pet. Eng. J., 5 (4), 435-445. https://doi.org/10.2118/67950-PA
Buckley, S. E., & Leverett, M. C. (1942). Mechanism of Fluid Displacement in Sands. Trans. AIME, 146: 107-116. https://doi.org/10.2118/942107-G
Caudle, B. H., Slobod, R.L., & Brownscomb, E. R. (1951). Further Developments in the Laboratory Determination of Relative Permeability. Trans. AIME, 192: 145-150.
https://doi.org/10.2118/951145-G
Corey, A., Rathjens, C., Henderson, J., & Wyllie, M. (1956). Three-Phase Relative Permeability. Petrol. Trans. AIME, 207: 349-351.
DiCarlo, D. A., Sahni, A., & Blunt, M. J. (2000). The Effect of Wettability on Three-Phase Relative Permeability. Transp. Porous Media, 39: 347-366.
https://doi.org/10.1023/A:1006653323374
Dickey, P. A., & Bossler, R. B. (1944). Role of Connate Water in Secondary Recovery of Oil. Petrol. Trans. AIME, 155: 175-183. https://doi.org/10.2118/944175-G
Donaldson, E. L., & Dean, G. W. (1966). Two - and Three- Phase Relative Permeability Studies. Technical Report RI 6826, US Bureau of Mines.
Eleri, O. O., Skauge, A., & Graue, A. (1995). Steady State and Unsteady State Two-Phase Relative Permeability Hysteresis and Measurements of Three-Phase Relative Permeability Using Imaging Techniques., SPE Ann. Tech. Conf. and Exhibition, Dallas, TX. SPE 30764. https://doi.org/10.2118/30764-MS
Fayers, F. J., & Matthews, J. D. (1984). Evaluation of Normalized Stone's Methods for Estimating Three- Phase Relative Permeabilities. Soc. Pet. Eng. J. 24 (2), 224-232. https://doi.org/10.2118/11277-PA
Goodyear, S. G., & Jones, P. I. R. (1995). Relative Permeabilities for Gravity Stabilized Gas Injection. Eight European Improved Oil Recovery Symposium, Vienna, Austria.
Grader, A. S., & O'Meara Jr., D. J. (1988). Dynamic Displacement Measurements of Three-Phase Relative Permeabilities Using Three Immiscible Fluids. SPE Ann. Tech. Conf. and Exhibition, Houston, TX. SPE 18293. https://doi.org/10.2118/18293-MS
Hicks Jr., P. J., & Grader, A. S. (1996). Simulation of Three-Phase Displacement Experiments. Transp. Porous Media, 24: 221-245. ttps://doi.org/10.1007/BF00139846
Holmgren, C. R. (1949). Some Results of Gas and Water Drives on a Long Core. Petrol. Trans. AIME, 179: 103-118. https://doi.org/10.2118/949103-G
Holmgren, C. R., & Morse, R. A. (1951). Effect of Free Gas Saturation on Oil Recovery by Waterflooding. Petrol. Trans. AIME, 192: 135-140.
https://doi.org/10.2118/951135-G
Hustad, O. S., & Hansen A. G. (1995). A consistent correlation for three phase relative permeabilities and phase pressures based on three sets of two phase data. 8th EAPG Impr. Oil Recovery European Symposium, Vienna, 1: 289.
Jerauld, G. R. (1997). General Three-Phase Relative Permeability Model for Prudhoe Bay. SPE Res. Eng.,12 (4), 255-263. https://doi.org/10.2118/36178-PA
Johnson, E. F., Bossler, D. P., & Neumann, V. O. (1959). Calculation of Relative Permeability from Displacement Experiments. Petrol. Trans. AIME, 216: 370-372.
https://doi.org/10.2118/1023-G
Jones, S. C., & Roszelle, W. O. (1978). Graphical Techniques for Determining Relative Permeability From Displacement Experiments. J. Petroleum Technol., May. 807-817. https://doi.org/10.2118/6045-PA
Juanes, R., & Spiteri, E. (2004). Impact of Relative Permeability Hysteresis on WAG Injection. SPE 89921. https://doi.org/10.2118/89921-MS
Land, C. S. (1968). Calculation of Imbibition Relative Permeability for Two- and Three-Phase Flow from Rock Properties. Soc. Pet. Eng. J., 8 (2), 149-156.
https://doi.org/10.2118/1942-PA
Muqeem, M. A. (1994). Effect of temperature on three phase relative permeability. Ph. D. Thesis, Petroleum Engineering, University of Alberta, Canada.
Naar, J., & Wygal, R. J. (1961). Three-Phase Imbibition Relative Permeability. Soc. Pet. Eng. J, 1 (4), 254-258. https://doi.org/10.2118/90-PA
Naylor, P., Sargent, N. C., Crosbie, A. J., Tilsed, A. P., & Goodyear, S.G. (1995). Gravity Drainage During Gas Injection. Eight European Improved Oil Recovery Symposium, Vienna, Austria. https://doi.org/10.3997/2214-4609.201406948
Nortvedt, J. E., Ebeltoft, E., Iversen, J. E., Urkedal, H., Vatne, K. O., & Watson, A. T. (1997). Determination of Three-Phase Relative Permeabilities from Displacement Experiments. SPE Form. Eval., 12 (6), 221-226. SPE 36683. https://doi.org/10.2118/36683-PA
Oak, M. J. (1990). Three-Phase Relative Permeability of Water-Wet Berea., SPE/DOE Seventh Symposium on Enhanced Oil Recovery, Tulsa, OK. SPE/DOE 20183.
https://doi.org/10.2118/20183-MS
Oak, M. J. (1991). Three-Phase Relative Permeability of Intermediate-Wet Berea Sandstone. SPE Ann. Tech. Conf. and Exhibition, Dallas, TX. SPE 22599. https://doi.org/10.2118/22599-MS
Reid, S. (1956). The Flow of Three Immiscible Fluids in Porous Media. Ph.D. Dissertation, University of Birmingham, U. K.
Sahni, A., Burger, J. E. & Blunt, M. J. (1998). Measurement of Three-Phase Relative Permeability During Gravity Drainage Using CT Scanning., SPE/DOE Symposium on Improved Oil Recovery, Tulsa, OK. SPE 39655. https://doi.org/10.2118/39655-MS
Saraf, D. N., & Fatt, I. (1967). Three-Phase Relative Permeability Measurement Using a Nuclear Magnetic Resonance Technique for Estimating Fluid Saturation. Soc. Pet. Eng. J. 7 (3), 235-242. https://doi.org/10.2118/1760-PA
Saraf, D. N., & McCaffery, F. G. (1981). Two and Three Phase Relative Permeabilities: A Review. Petroleum Recovery Research Institute Report No. 81-8.
Saraf, D. N., Batycky, J. P., Jackson, C. H., & Fisher, D. B. (1982). An Experimental Investigation of Three-Phase Flow of Water-Oil-Gas Mixtures through Water-Wet Sandstones. SPE, California Regional Meeting, San Francisco, CA. SPE 10761. https://doi.org/10.2118/10761-MS
Sarem, A. M. (1966). Three-Phase Relative Permeability Measurements by Unsteady-State Method. Soc. Pet. Eng. J., 6 (3), 199-205.
https://doi.org/10.2118/1225-PA
Schneider, F. N., & Owens, W.W. (1970). Sandstone and Carbonate Two - and Three-Phase Relative Permeability Characteristics. Soc. Pet. Eng. J. 10 (1), 75-84.
https://doi.org/10.2118/2445-PA
Siddiqui, S., Hicks, P. J., & Grader, A. S. (1996). Verification of Buckley Leverett Three Phase Theory Using Computerized Tomography, J. Pet. Sci. Eng. 15(1), 1-21.
https://doi.org/10.1016/0920-4105(95)00056-9
Siddiqui, S., Yang, J., & Ahmed, M. (1998). Dynamic Displacement Measurement of Three Phase Relative Permeabilities in Berea Sandstone Cores. SPE 49306.
https://doi.org/10.2118/49306-MS
Skauge, A, Eleri, O. O., Graue, A., & Monstad, P. (1994). Influence of Connate Water on Oil Recovery by Gravity Drainage. SPE/DOE Ninth Symposium on Improved Oil Recovery, Tulsa, OK. SPE 27817. https://doi.org/10.2118/27817-MS
Snell, R.W. (1962). Three-Phase Relative Permeability in an Unconsolidated Sand. J. Inst. Pet. 48, 80-88.
Van Spronsen, E. (1982). Three-Phase Relative Permeability Measurements Using the Centrifuge Method. SPE/DOE Third Symposium on Enhanced Oil Recovery, Tulsa, OK. SPE 10688. https://doi.org/10.2118/10688-MS
Stone, H. L. (1970). Probability Model for Estimation Three- Phase Relative Permeability. Journal of Petroleum Technology, 20, 214-218.
https://doi.org/10.2118/2116-PA
Stone, H. L. (1973). Estimation of Three-Phase Relative Permeability and Residual Data, Journal of Canadian Petroleum Technology, 12, 53-61.
https://doi.org/10.2118/73-04-06
Welge, H. J. (1949). Displacement of Oil from Porous Media by Water or Gas. Petrol. Trans. AIME, 179, 133-145. https://doi.org/10.2118/949133-G
Welge, H. J. (1952). A Simplified Method for Computing Oil Recovery by Gas or Water Drive. Petrol. Trans. AIME, 195, 91-98. https://doi.org/10.2118/124-G
Downloads
Copyright (c) 2008 Creative Commons Reconocimiento-NoComercial-CompartirIgual 4.0.
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.
