참고문헌
- Aadnoy, B.S. and hogskole, N.t. (1987), Continuum Mechanics Analysis of the Stability of Inclined Boreholes in Anisotropic Rock Formation, Norwegian Institute of Technology.
- Amadei, B. (1983), Rock Anisotropy and the Theory of Stress Measurements, Lecture Notes in Engineering, Volume 2, Springer Berlin Heidelberg.
- Bowker, K.A. (2003), "Recent developments of the Barnett Shale play, Fort Worth Basin", West Texas Geological Society Bulletin, 42(6), 4-11.
- EIA (2011), "Shale gas in the United States: Recent developments and outlook".
- Fallahzadeh, S.H., Shadizadeh, S.R., Pourafshary, P. and Zare, M.R. (2010), "Modeling the perforation stress profile for analyzing hydraulic fracture initiation in a cased hole", SPE 136990, The 34th Annual SPE International Conference and Exhibition, Tinapa-Calabar, Nigeria, July-August.
- Hossain, M.M., Rahrnan, M.K. and Rahman, S.S. (2000), "Hydraulic fracture initiation and propagation: Roles of wellbore trajectory, perforation and stress regimes", J. Pet. Sci. Eng., 27(3-4), 129-149. https://doi.org/10.1016/S0920-4105(00)00056-5
- Huang, R. and Zhuang, J. (1986), "A new prediction model of formation breakdown pressure", Oil Drill. Prod. Tech., 8(3), 1-3.
- Jaeger, J.C. and Cook, N.G.W. (2007), Fundamentals of Rock Mechanics, (3rd Edition Ed.), Chapman and Hall, London, UK.
- Khan, S., Ansari, S., Han, H. and Khosravi, N. (2011), "Importance of shale anisotropy in estimating in-situ stresses and wellbore stability analysis in Horn River basin", SPE 149433, Canadian Unconventional Resources Conference, Alberta, Canada, November.
- Lekhnitskii, S.G. (1981), Theory of Elasticity of an Anisotropic Body, MIR Publishers, Moscow, Russia.
- Mathews, L.H., Sehein, G. and Malone, M. (2007), "Stimulation of gas shales: They' re all the same-right", SPE 106070, SPE Hydraulic Fracturing Technology Conference, College Station, TX, USA, January.
- Ong, S.H. (1994), "Borehole stability", Ph.D. Thesis, The University of Oklahoma, Oklahoma, OK, USA.
- Ong, S.H. and Roegiers, J.C. (1995), "Fracture initiation from inclined wellbores in anisotropic formations", J. Pet. Tech., 48(7), 612-619.
- Pariseau, W.G. (1968), "Plasticity theory for anisotropic rocks and soils", The 10th U.S. Symposium on Rock Mechanics (USRMS), Austin, TX, USA, May.
- Prioul, R., Karpfinger, F., Deenadayalu, C. and Suarez-Rivera, R. (2011), "Improving fracture initiation predictions on arbitrarily oriented wells in anisotropic shales", Canadian Unconventional Resources Conference, Calgary, AB, Canada, November.
- Sayers, C.M. (2005), "Seismic anisotropy of shales", Geophys. Prospect., 53(5), 667-676. https://doi.org/10.1111/j.1365-2478.2005.00495.x
- Sinha, B.K., Vissapragada, B., Renlie, L. and Tysse, S. (2006), "Radial profiling of the three formation shear moduli and its application to well completions", Geophys., 71(6), 65-77.
- Suarez-Rivera, R., Green, S.J., McLennan, J. and Bai, M. (2006), "Effect of layered heterogeneity on fracture initiation in tight gas shales", SPE 103327, SPE Annual Technical Conference and Exhibition, San Antonio, TX, USA, September.
- Suarez-Rivera, R., Deenadayalu, C. and Yang, Y. (2009), "SS: Unlocking the unconventional oil and gas reservoirs: The effect of laminated heterogeneity in wellbore stability and completion of tight gas shale reservoirs", OTC 20269, Offshore Technology Conference, Houston, TX, USA, May.
- Thiercelin, M. and Plumb, R. (1994), "A core-based prediction of lithologic stress contrasts in East Texas formations", SPE Formation Eval., 9(4), 251-258. https://doi.org/10.2118/21847-PA
- Walsh, J., Sinha, B., Plona, T., Miller, D., Bentley, D. and Ammerman, M. (2007), "Derivation of anisotropy parameters in a shale using borehole sonic data", SEG Technical Program Expanded Abstracts, 1(26), 323-327.
- Wang, Y. and Li, Z. (1999), "A study of in-situ stresses in transversely isotropic formations", ACTA PETROL EI SINICA, 20(1), 34-37.
- Weng, X. (1993), "Fracture initiation and propagation from deviated wellbores", SPE 26597, The 68th Annual Technical Conference and Exhibition of the Society of Petroleum Engineers, Houston, TX, USA, October.
- Yan, C.L., Deng, J.G., Yu, B.H., Tan, Q., Deng, F.C., Zhu, H.Y., Hu, L.B. and Chen, Z.J. (2013), "Research on collapsing pressure of gas shale", Chinese J. Rock Mech. Eng., 32(8), 1595-1602.
- Zhu, H.Y., Deng, J.G., Xie, Y.H., Huang, K.W., Zhao, J.Y. and Yu, B.H. (2012), "Rock mechanics characteristic of complex formation and faster drilling techniques in Western South China Sea oilfields", Ocean Eng., 44, 33-45. https://doi.org/10.1016/j.oceaneng.2012.01.031
- Zhu, H.Y., Deng, J.G., Chen, Z.J., An, F.C., Liu, S.J., Peng, C.Y., Wen, M. and Dong, G. (2013a), "Perforation optimization of hydraulic fracturing of oil and gas well", Geomech. Eng., Int. J., 5(5), 463-483. https://doi.org/10.12989/gae.2013.5.5.463
- Zhu, H.Y., Deng, J.G., Li, S.Y., Chen, Z.R. and Yan, W. (2013b), "Numerical simulation and laboratory experiments of hydraulic fracturing of highly deviated well", Appl. Mech. Mater., 275-277, 278-281. https://doi.org/10.4028/www.scientific.net/AMM.275-277.278
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