A New Waterflooding Characteristic Curve for Naturally Fractured Sandstone Reservoirs

HAN Shugang, ZHAO Chuanfeng

Abstract


Characteristic curves have found wide applications to analysis and prediction of waterflooding behavior for sandstone reservoirs. Based on the theory of water-oil two-phase flow in dual porous media and taking advantage of the relative permeability curve for naturally fractured sandstone reservoirs, a new waterflooding characteristic curve was derived with an explicit mathematical expression. Verified by physical simulation, numerical simulation and field case, the curve for fractured reservoirs will upwarp at high watercuts, rarely seen in that of non-fractured sandstone reservoirs. In order to improve the quality of analysis and prediction, it is suggested to utilize the new characteristic curve for naturally fractured sandstone reservoirs rather than the conventional curves for non-fractured sandstone reservoirs.

Key words: Fractured sandstone reservoir; Waterflooding characteristic curve; Relative permeability curve; Physical simulation; Numerical simulation


Keywords


Fractured sandstone reservoir; Waterflooding characteristic curve; Relative permeability curve; Physical simulation; Numerical simulation

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References


[1] Jiang, H. Q., Yao, J., & Jiang, R. Z. (2002). Reservoir engineering theories and practices. Beijing, China: China University of Petroleum Press.

[2] Liu, Z. Y., Zhao, C. S., & Yin, D. Y. (2002). Manual of reservoir engineering fundamentals. Beijing, China: Petroleum Industry Press.

[3] Fang, L. Y., & Wan, X. D. (1998). Waterflooding performance analysis of sandstone reservoirs. Beijing, China: Petroleum Industry Press.

[4] Zhu, Y. D., & Li, G. Z. (1985). Characteristic curves for fractured reservoirs and its application. Daqing Oil Geology and Development, 4(1), 29-39.

[5] Yuan, S. Y., Song, X. M., & Ran, Q. Q. (2004). Development techniques for fractured reservoirs. Beijing, China: Petroleum Industry Press.

[6] Chen, Y. Q. (1999). Practical reservoir engineering methods. Beijing, China: Petroleum Industry Press.

[7] Romm, E. S. (1966). Fluid flow in fractured rocks. Moscow: Nedra.

[8] Liu, Y. H. (1997). Fuyu fractured low-permeability sandstone reservoirs. Beijing, China: Petroleum Industry.




DOI: http://dx.doi.org/10.3968/6405

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