Study on Borehole Stability of Unconsolidated Sandstone in Depleted Reservior

Qiang Tan; Jin Gen Deng; Bao Hua Yu

doi:10.4028/www.scientific.net/AMR.616-618.720

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 616-618Study on Borehole Stability of Unconsolidated...

Study on Borehole Stability of Unconsolidated Sandstone in Depleted Reservior

Abstract:

Reservoir pressure will decline generally along with production in the oil and gas development process. There are some problems such as borehole collapse or reduced diameter and lost circulation in drilling of initial production stage in unconsolidated sandstone. As the formation pressure declines the stress around borehole changes, and then collapse pressure and fracture pressure are affected. Especially in directional wells, variation of wellbore stability is more complex with different borehole deviation and azimuth. The calculation models of collapse and fracture pressure in depleted reservoirs were established, and relevant data in unconsolidated sand reservoir of an oilfield in Bohai Sea was used to calculate collapse pressure and fracture pressure of directional wells in the condition of pressure depletion before and after. The results showed that collapse and fracture pressure decreased as formation pressure depletion, and safe drilling fluid density window was wider when drilled to the direction of minimum horizontal principle stress. The calculation results can be reference to drilling design of adjustment wells in unconsolidated sandstones.

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Periodical:

Advanced Materials Research (Volumes 616-618)

Pages:

720-725

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.616-618.720

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Online since:

December 2012

Authors:

Qiang Tan, Jin Gen Deng, Bao Hua Yu

Keywords:

Directional Wells, Pressure Depletion, Unconsolidated Sandstone, Wellbore Stability

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References

[1] Xu T T, Liu Y J, Shen W, et al. Leakage proof and plugging technology in drilling engineering. Beijing: Petroleum Industry Press; 1997. (In Chinese)

Google Scholar

[2] Addis M A, Cauly M B, and Kuyken C. Brent in-fill drilling programme: lost circulation associated with drilling depleted reservoirs. SPE 67741, SPE/IADC Drilling Conference, Amsterdam, The Netherlands, February 27 - March 1, 2001, pp.1-17.

DOI: 10.2118/67741-ms

Google Scholar

[3] Benaissa S, Bachelot A, and Ricaud J, et al. Preventing differential sticking and mud losses drilling through highly depleted sands - fluids and geomechanics approach. SPE 92266, SPE/IADC Drilling Conference, Amsterdam, The Netherlands, February 23-25, 2005, pp.1-12.

DOI: 10.2118/92266-ms

Google Scholar

[4] Addis M A. Reservior Depletion and its effect on wellbore stability evaluation. International Journal of Rock Mechanics and Mining Science; 1997, 34, paper No. 004.

DOI: 10.1016/s1365-1609(97)00238-4

Google Scholar

[5] Liang H S, Wen G F, Wang G H, et al. The effects of pore pressure alterations on the in-situ stress. Petroleum Drilling Techniques; 2004, 2, pp.18-20. (In Chinese)

Google Scholar

[6] Liu Y R, Tang H M. Rock mass mechanics. Wuhan: China University of Geoscience Press; 1999. (In Chinese)

Google Scholar

[7] Deng J G, Zhang H S. Mechanical mechanism of borehole instability in drilling engineering. Beijing: Petroleum Industry Press; 1998. (In Chinese)

Google Scholar

[8] Jin Y, Chen M, Liu G H, et al. Wellbore stability analysis of extended reach wells. Journal of Geomechanics; 1999, 1, pp.4-11. (In Chinese)

Google Scholar