Page 237 - Applied Petroleum Geomechanics
P. 237
232 Applied Petroleum Geomechanics
Whitehead, W.S., Hunt, E.R., Finley, R.J., Holditch, S.A., 1986. In-situ stresses: a com-
parison between log-derived values and actual field-measured values in the Travis Peak
formation of East Texas. Paper SPE-15209.
Whitehead, W.S., Hunt, E.R., Holditch, S.A., 1987. The effects of lithology and reservoir
pressure on the in-situ stress in the Waskom (Travis peak) field. Paper SPE/DOE 16403.
Wiprut, D., 2001. Stress, Borehole Stability, and Hydrocarbon Leakage in the Northern
North Sea. Ph.D. dissertation, Stanford University, pp. 51e62.
Wu, M., Zhang, Y., Liao, C., Chen, Q., Ma, Y., Wu, J., Yan, J., Ou, M., 2009. Preliminary
results of in-situ stress measurements along the Longmenshan fault zone after the
Wenchuan M s 8.0 earthquake. Acta Geol. Sin. 83 (4), 746e753.
Yang, Y., Aplin, A.C., 2004. Definition and practical application of mudstone porosity-
effective stress relationships. Petrol. Geosci. 10, 153e162.
Zajac, B.J., Stock, J.M., 1997. Using borehole breakouts to constrain the complete stress
tensor: results from the Sijan Deep Drilling Project and offshore Santa Maria Basin,
California. J. Geophys. Res. B 102 (B5), 10083e10100.
Zhang, J., 2002. Dual-Porosity Approach to Wellbore Stability in Naturally Fractured
Reservoirs. Ph.D. dissertation, The University of Oklahoma.
Zhang, J., 2013. Borehole stability analysis accounting for anisotropies in drilling to weak
bedding planes. Int. J. Rock Mech. Min. Sci. 60, 160e170.
Zhang, J., Roegiers, J.-C., 2010. Discussion on “Integrating borehole-breakout dimensions,
strength criteria, and leak-off test results, to constrain the state of stress across the
Chelungpu Fault, Taiwan”. Tectonophysics 492, 295e298.
Zhang, J., Wieseneck, J., 2011. Challenges and surprises of abnormal pore pressure in shale
gas formations. In: SPE Annual Technical Conference and Exhibition, 30 October-2
November, Denver, Colorado, USA. SPE-145964.
Zhang, Y., Zhang, J., 2017. Lithology-dependent minimum horizontal stress and in-situ
stress estimate. Tectonophysics 703e704, 1e8.
Zhang, J., Bai, M., Roegiers, J.-C., 2003. Dual-porosity poroelastic analyses of wellbore
stability. Int. J. Rock Mech. Min. Sci. 40, 473e483.
Zhang, J., Standifird, W., Lenamond, C., 2008. Casing ultradeep, ultralong salt sections in
deep water: a case study for failure diagnosis and risk mitigation in record-depth well.
Paper SPE 114273.
Zhang, J., Yin, S., 2017. Fracture gradient prediction: an overview and an improved
method. Pet. Sci. 14, 720e730.
Zhang, Y., Zhang, J., Yuan, B., Yin, S., 2018. In-situ stresses controlling hydraulic fracture
propagation and fracture breakdown pressure. J. Pet. Sci. Eng. 164, 164e173.
Zoback, M.D., Rummel, F., Jung, R., Raleigh, C.B., 1977. Laboratory hydraulic fracturing
experiments in intact and pre-fractured rock. Int. J. Rock Mech. Min. Sci. 14, 49e58.
