Study on Technical Measures of Romashkino Oil Field after Entering Ultra-High Water Cut Stage

Abstract

Romashkino oil field has large oilfield area, small formation dip, many reservoir layers, wide oil-water transition zone and complicated sedimentary environment. Since development, 3 overall development plannings and adjustments of individual block have been established. This achieves a high oil production. However, the recoverable reserves of major oil layer with high production become smaller and smaller and the water cut increases over time, the production ability of oil layer decreases. The development status of oil layer of mining siltstone, oil-water transition zone and oil layer with upswept injected water cannot be changed under present dilute well network condition, because there is no reinforced measurement to water well. This results the low oil production of Romashkino oil field. In order to improve oil production rate and reach the designed oil recovery, Romashkino oil field has been implemented many added cuttings since development. Resent researches about Romashkino oil field show: in later oilfield development stage, sidetrack and lateral drilling horizontal wells technology is very reasonable; formation hydraulic fracturing technology has been widely used in recent years; in tertiary oil recovery, sweep efficiency and flooding efficiency related technologies have been taken. This offers reference and guidance for the effective and reasonable oil field development in later period.

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L. Lu, Z. Liu, H. Liu and Y. Yan, "Study on Technical Measures of Romashkino Oil Field after Entering Ultra-High Water Cut Stage," Engineering, Vol. 5 No. 7, 2013, pp. 622-628. doi: 10.4236/eng.2013.57074.

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1] J. P. Riva Jr., “The Petroleum Resources of Russia and the Commonwealth of Independent States,” The Former Soviet Union in Transition, Vol. 2, 1993, pp. 461-476.
[2] A. Loppinet, S. Lakovlet and Ph. Glenat, “Five Years of Injection of Hydroxyethylcellulose—An Ecological Pure Product for Enhanced Oil Recovery in the Field of Romashkino,” Proceedings of SPE Offshore Europe Conference, Aberdeen, 23-24 October 1999, pp. 39-43.
[3] H. Q. Chao, “Development of Large and Giant Oil Gas Fields in Russia,” Vol. 1, Petroleum Industry Press, Beijing, 1998, pp. 46-74.
[4] R. G. Abdulmazitov, A. F. Blinov, et al., “Reservoir Modeling for Giant Romashkino Field (Problems and Solutions),” Proceedings of SPE European Petroleum Conference, Paris, 24-25 October 2000, pp. 653-655.
[5] T. Yusupova, R. Muslimov, G. Romanov, et al., “The Impact of Interfacial Phenomena on the Efficiency of Oil Recovery (A Case of the Heterogeneous Strata of the Romashkino Oil Field, Tatarstan),” Canadian Interna tional Petroleum Conference, Calgary, 10-12 June 2003. doi:10.2118/2003-036
[6] X. J. Wen and F. R. Li, “Overview of Romashkino Field Development,” Foreign Oil Field Engineering, Vol. 26, No. 12, 2010, pp. 3-6.
[7] M. Boduszyński, B. R. Chadha and T. Szkuta-Pochopień, “Investigations on Romashkino Asphaltic Bitumen. 3. Fractionation of Asphaltenes Using Ion-Exchange Chro matography,” Fuel, Vol. 56, No. 4, 1977, pp. 432-436. doi:10.1016/0016-2361(77)90072-2
[8] D. I. D. B. A. Yakovlev, G. A. Tuzhilin and N. V. Par feneko “Geothermal Characteristics of The Volga-Ural Oil-Gas Province and the Romashkino Oil Field, ” Petro leum Geology, Vol. 11, No. 7-12, 2001, p. 309.
[9] Q. S. Song and J. S. Zhang, “Secondary Development of Romashkino Field,” Foreign Oil Field Engineering, Vol. 17, No. 5, 2001, pp. 31-35.
[10] D. K. Nourgaliev, R. K. Muslimov, N. N. Sidorova, et al., “Variation of i-Butane/n-Butane Ratio in Oils of the Romashkino Oil Field for the Period of 1982-2000: Probable Influence of the Global Seismicity on the Fluid Migration,” Journal of Geochemical Exploration, Vol. 89, No. 1, 2006, pp. 293-296. doi:10.1016/j.gexplo.2005.12.022
[11] R. N. Diyashev and Y. Q. Li, “Secondary Development of Romashkino Field Aims to Stable Production,” Petroleum Exploration and Development Information, Vol. 2, 2001, pp. 65-74.
[12] X. B. Yang and Y. Feng, “Study on the Technological Development Measures of Updip-Zone of Glutenite Oil Field,” HENAN Petroleum, Vol. 14, No. 6, 2000, pp. 17-19.

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