Bibliography of Well-Log Applications
1996 Annual Update

PART B: APPLICATIONS

15. FRACTURE DETECTION AND EVALUATION;
WELLBORE BREAKOUTS AND ANALYSIS OF IN SITU STRESS

(See also 19. Ground Water, 20. Igneous Rocks, 21. Geothermal Logging)
  1. Adams, J., and Bell, J.S., 1991, Crustal stress in Canada, chapter 20, in Slemmons, D.B., Engdahl, E.R., Zoback, M.D., and Blackwell, D.D., eds., Neotectonics of North America: Geological Society of America, Decade Map Volume 1, p. 367-386.
  2. Addis, M.A., Last, N.C., and Yassir, N.A., 1994, The estimation of horizontal stresses at depth in faulted regions and their relationship to pore pressure variation, in Rock mechanics in petroleum engineering, Eurock '94 proceedings: A.A. Balkema, Rotterdam, p. 887-895. Later published in 1996: SPE Formation Evaluation, v. 11, no. 1, p. 11-18.
  3. Aguilera, R., 1995, Naturally fractured reservoirs, 2nd edition: PennWell Publishing Company, Tulsa, Oklahoma, 521 p.
  4. Amar, Z.H.B., Altunbay, M., and Barr, D., 1995, Stress sensitivity in the Duland field--How it is related to productivity, SPE-30092, in SPE European formation damage control conference proceedings: Society of Petroleum Engineers, 19 p.
  5. Amato, A., and Montone, P., 1995, State of stress in southern Italy from borehole breakout and focal mechanism data: Geophysical Research Letters, v. 22, no. 23, December 1, p. 3119-3122.
  6. Ameen, M.S., 1995, Fractography--fracture topography as a tool in fracture mechanics and stress analysis; an introduction, in Ameen, M.S., ed., Fractography--fracture topography as a tool in fracture mechanics and stress analysis: Geological Society [London] Special Publication No. 92, p. 1-10.
  7. Anderson, R.N., and Zoback, M.D., 1983, The implications of fracture and void distribution from borehole televiewer imagery for the seismic velocity of the upper oceanic crust at Deep Sea Drilling Project Holes 501 and 504B, in Cann, J.R., Langseth, M.G., Honnorez, J., Von Harzen, R.P., White, S.M., et al., eds., Deep Sea Drilling Project, initial reports, v. 69: U.S. Government Printing Office, Washington, D.C., p. ?
  8. Avasthi, J.M., Nolen-Hoeksema, R.C., El Rabaa, A.W.M., and Wilson, L.E., 1990, In-situ stress evaluation in the McElroy field, west Texas, SPE-20105, in SPE Permian Basin Oil and Gas Recovery Conference Proceedings: Society of Petroleum Engineers, p. 189-196. Later published in 1991: SPE Formation Evaluation, v. 6, no. 3, p. 301-309.
  9. Aydan, O., 1995, The stress state of the earth and the earth's crust due to the gravitational pull, in Daemen, J.J.K., and Schultz, R.A., Rock mechanics; proceedings of the 35th U.S. symposium: A.A. Balkema, Rotterdam, p. 237-243.
  10. Azeemuddin, M., Roegiers, J.-C., Suri, P., Zaman, M., and Kukreti, A.R., 1995, Stress-dependent permeability measurements of rocks in a triaxial cell, in Daemen, J.J.K., and Schultz, R.A., eds., Rock mechanics; proceedings of the 35th U.S. symposium: A.A. Balkema, Rotterdam, p. 645-650.
  11. Banik, A.K., and Schechter, D.S., 1996, Characterization of the naturally fractured Spraberry trend shaly sands based on core and log data, SPE-35224, in Permian Basin oil and gas recovery conference proceedings: Society of Petroleum Engineers, p. 623-632.
  12. Bankwitz, P., and Bankwitz, E., 1995, Fractographic features on joints of KTB drill cores (Bavaria, Germany), in Ameen, M.S., ed., Fractography--fracture topography as a tool in fracture mechanics and stress analysis: Geological Society [London] Special Publication No. 92, p. 39-58.
  13. Baptie, B., Crampin, S., and Liu, E., 1993, Displaying shear-wave splitting in cross-hole surveys for materials with combinations of EDA and PTL anisotropies: Canadian Journal of Exploration Geophysics, v. 29, no. 1, p. 227-235.
  14. Barton, C.A., 1988, Development of in-situ stress measurement techniques for deep drillholes: Stanford University, Stanford, California, unpublished Ph.D. dissertation, 192 p.
  15. Barton, CA.., Zoback, M.D., and Moos, D., 1995, In-situ stress and fracture permeability in the Long Valley Caldera, in Daemen, J.J.K., and Schultz, R.A., Rock mechanics; proceedings of the 35th U.S. symposium: A.A. Balkema, Rotterdam, p.225-229.
  16. Barton, C.A., Zoback, M.D., Moos, D., and Sass, J.H., 1995, In-situ stress and fracture permeability in the Long Valley Caldera, in Daemen, J.J.K., and Schultz, R.A., eds., Rock mechanics; proceedings of the 35th U.S. symposium: A.A. Balkema, Rotterdam, p. 225-229.
  17. Basu, D. Ghosh, D.K., and Paul, A., 1994, Determination of dynamic elastic properties of rocks and fracture pressure gradient from sonic waveforms: Indian Journal of Geology, v. 66, no. 1, p. 31-38.
  18. Baumgardner, R.W., Jr., and Laubach, S.E., 1987, Analysis of natural fractures and borehole ellipticity, Travis Peak Formation, east Texas: Gas Research Institute, Report GRI 87-0211, 128 p. Also published as, Wellbore ellipticity in east Texas--in-situ stress or fracture-related spalling [abs.]: EOS, Transactions, American Geophysical Union, v. 68, no. 44, November 3, p. 1460.
  19. Becker, A., Blumling, P., and Muller, W.H., 1987, Recent stress field and neotectonics in the eastern Jura Mountains, Switzerland: Tectonophysics, v. 135, p. 277-288.
  20. Beckham, W.E., 1996, Seismic anisotropy and natural fractures from VSP and borehole sonic tools--a field study: Geophysics, v. 61, no. 2, p. 456-466.
  21. Behseresht, C.D., 1992, Correlation of log response to production in the Austin Chalk: Texas A&M University, College Station, unpublished M.S. thesis, 81 p.
  22. Belfield, W.C., 1994, Multifractal characteristics of natural fracture apertures: Geophysical Research Letters, v. 21, no. 24, p. 2641-2644.
  23. Bell, J.S., and Babcock, E.A., 1986, The stress regime of the Western Canadian Basin and implications for hydrocarbon production: Bulletin of Canadian Petroleum Geology, v. 34, no. 3, p. 364-378.
  24. Bell, J.S., and Gough, D.I., 1981, Intraplate stress orientations from Alberta oil-wells, in O'Connell, R.J., and Fyfe, W.S., eds., Evolution of the Earth: American Geophysical Union, Geodynamics Series, v. 5, p. 96-104.
  25. Berumen, S., and Tiab, D., 1996, Effect of pore pressure on conductivity and permeability of fractured rocks, SPE-35694, in 66th SPE western region meeting proceedings: Society of Petroleum Engineers, p. 445-460.
  26. Beydoun, W., and Robein, E., 1995, What can a reservoir engineer expect form production geophysics, now and in the future?: Bulletin des Centres de Recherches Exploration-Production Elf Aquitaine, v. 19 no. 1, p. 59-77.
  27. Bigelow, E.L., 1995, Using rock mechanical properties to investigate anisotropy, borehole breakout, fracture systems and hydraulic permeability, in Symposium on class II injection well management practices transactions: U.S. Department of Energy. Also published in 1995, in Annual forum on underground injection and ground water protection proceedings: Ground Water Protection Council, p. 31-40.
  28. Borner, F.D., and Schon, J.H., 1996, Microcrack structure and its effect on electrical conductivity, paper SCA-9612, in International SCA symposium proceedings: Society of Professional Well Log Analysts, Society of Core Analysts Chapter-at-Large, 10 p.
  29. Brignoli, M., and Santarelli, F.J., 1995, Capillary effects in sedimentary rocks--applications to reservoir water-flooding, in Daemen, J.J.K., and Schultz, R.A., eds., Rock mechanics; proceedings of the 35th U.S. symposium: A.A. Balkema, Rotterdam, p. 619-625.
  30. Brown, K.M., 1995, The variation of the hydraulic conductivity structure of an overpressured thrust zone with effective stress, chapter 17, in Carson, B., Westbrook, G.K., Musgrave, R.J., and Suess, E., eds., Proceedings of the Ocean Drilling Program, scientific results, v. 146, part 1, Cascadia margin: Ocean Drilling Program, Texas A&M University, College Station, p. 281-289.
  31. Caramanica, F.P., 1994, Impact of reservoir properties and fractures on gas production, Antrim Shale, Michigan Basin, topical report: Gas Research Institute Report GRI-93/0330, 93 p.
  32. Chaimov, T.A., Beaudoin, G.J., Haggard, W.W., Mueller, M.C., and Thomsen, L.A., 1995, Shear-wave anisotropy and coalbed methane productivity, IN1.8, in 1995 technical program expanded abstracts with biographies: Society of Exploration Geophysicists, p. 305-308.
  33. Chapman, M.J., and Lane, J.W., Jr., 1996, Use of directional borehole radar and azimuthal square-array D.C. resistivity methods to characterize a crystalline-bedrock aquifer, in Bell, R.S., and Cramer, M.H., compilers, Symposium on the applications of geophysics to engineering and environmental problems, proceedings: Environmental and Engineering Geophysical Society, p. 833-842.
  34. Chen, W., 1995, AVO in azimuthally anisotropic media fracture detection using P-wave data and a seismic study of naturally fractured tight gas reservoirs: Stanford University, Stanford, California, unpublished Ph.D. dissertation, 143 p.
  35. Cicerone, R.D., and Toksoz, M.N., 1995, Fracture characterization from vertical seismic profiling data: Journal of Geophysical Research, v. 100, no. B3, March 10, p. 4131-4148.
  36. Cosgrove, J.W., 1995, The expression of hydraulic fracturing in rocks and sediments, in Ameen, M.S., ed., Fractography--fracture topography as a tool in fracture mechanics and stress analysis: Geological Society [London] Special Publication No. 92, p. 187-196.
  37. Cui, L, Cheng, A.H.D., Leshchinsky, D., Abousleiman, Y., and Roegiers, J.-C., 1995, Stability analysis of an inclined borehole in an isotropic poroelastic medium, in Daemen, J.J.K., and Schultz, R.A., eds., Rock mechanics; proceedings of the 35th U.S. symposium: A.A. Balkema, Rotterdam, p. 307-312.
  38. Darilek, G.T., 1986, A color borehole television system for developing gas production from Devonian shales, SPE-15219, in: Society of Petroleum Engineers, p.xx-xx.
  39. Davis, R.K., 1995, Application of borehole geophysical logging to the characterization of hydrofracture wells, paper T, in 6th international symposium on borehole geophysics for minerals, geotechnical and groundwater applications, proceedings: Society of Professional Well Log Analysts, Minerals and Geotechnical Logging Society Chapter-at-Large.
  40. de Souza, N.P.R., and Verma, O.P., 1995, Scale-model response of fracture zones to a coplanar induction tool in a borehole: The Log Analyst, v. 36, no. 5, p. 49-57.
  41. Decker, A.D., Klawitter, A.J., and Davis, T.L., 1992, A case study of fracture detection methods used to locate open fractures in coal, in Coalbed methane resources and development in Australia, symposium proceedings, v. 2: Energy Resources Development Corporation, p. 51-74.
  42. Deng, J., Wang, K., and Huang, R., 1995, In-situ stress determination at great depth by using acoustic emission technique, in Daemen, J.J.K., and Schultz, R.A., eds., Rock mechanics; proceedings of the 35th U.S. symposium: A.A. Balkema, Rotterdam, p. 245-250.
  43. Desroches, J., 1995, Stress testing with the micro-hydraulic fracturing technique--focus on fracture reopening, in Daemen, J.J.K., and Schultz, R.A., eds., Rock mechanics; proceedings of the 35th U.S. symposium: A.A. Balkema, Rotterdam, p. 217-223.
  44. Desroches, J., Marsden, J.R., and Colley, N.M., 1995, Wireline open-hole stress tests in a tight gas sandstone, in International gas research conference proceedings, v. 1: Government Institutes Inc., Rockville, Maryland, p. 106-119.
  45. Durand, C., Forsans, T., Ruffet, C., Onaisi, A., and Audibert, A., 1995, Influence of clays on borehole stability--a literature survey: Revue de l'Institut Francais du Petrole, v. 50, no. 2, p. 187-218.
  46. Dvorkin, J., Nur, A., and Chaika, C., 1996, Stress sensitivity of sandstones: Geophysics, v. 61, no. 2, p. 444-455.
  47. Ehlen, J., Hevenor, R.A., Kemeny, J.M., and Girdner, K., 1995, Fracture recognition in digital imagery, in Daemen, J.J.K., and Schultz, R.A., eds., Rock mechanics; proceedings of the 35th U.S. symposium: A.A. Balkema, Rotterdam, p. 141-146.
  48. Endo, T., Brie, A., and Badri, M., 1996, Fracture evaluation from dipole shear anisotropy and borehole Stoneley waves, paper U, in 2nd annual well logging symposium of Japan, proceedings: Society of Professional Well Log Analysts, Japan Chapter, 10 p.
  49. Esmeroy, C., Kane, M., Boyd, A., and Denoo, S., 1995, Fracture and stress evaluation using dipole-shear anisotropy logs, paper U, in 1st annual well logging symposium of Japan, proceedings: Society of Professional Well Log Analysts, Japan Chapter, 12 p.
  50. Evans, D.G., 1995, Inverting fluid conductivity logs for fracture inflow parameters: Water Resources Research, v. 31, no. 12, p. 2905-2915.
  51. Ewy, R.T., and Cook, N.G.W., 1990, Deformation and fracture around cylindrical openings in rock--I; observations and analysis of deformations: International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts, v. 27, no. 5, p. 387-407.
  52. Ewy, R.T., and Cook, N.G.W., 1990, Deformation and fracture around cylindrical openings in rock--II; initiation, growth, and interaction of fractures: International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts, v. 27, no. 5, p. 409-427.
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  55. Genter, A., Traineau, H., Elsass, P., Dezayes, C., Villemin, T., Ledesert, B., and Meunier, A., 1995, Fracture analysis and reservoir characterization of the granitic basement in the HDR [hot dry rock] Soultz project (France): Geothermal Science and Technology, v. 4, no. 3, p. 189-214.
  56. Ghose, R., 1995, Changes in shear-wave polarization with depth detected in Buckhorn oil field, Illinois: Geothermal Science and Technology, v. 5, p. 79-89.
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  61. Harstad, H., Teufel, L.W., and Lorenz, J.C., 1995, Characterization and simulation of naturally fractured tight gas sandstone reservoirs, SPE-30573, in Annual technical conference and exhibition proceedings, v. omega, Formation evaluation and reservoir geology: Society of Petroleum Engineers, p. 437-446.
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  64. Hess, A.E., 1985, Identifying hydraulically -conductive fractures with a low-velocity flowmeter: Canadian Geotechnical Journal, v. 23, p. 69-78.
  65. Hickman, S.H., Healy, J.H., and Zoback, M.D., 1985, In situ stress, natural fracture distribution and borehole elongation in the Auburn geothermal well, Auburn, New York: Journal of Geophysical Research, v. 90, no. B7, p. 5497-5512.
  66. Hill, R.E., Peterson, R.E., Warpinski, N.R., Lorenz, J.C., Teufel, L.W., and Aslakson, J., 1995, Techniques for determining subsurface stress direction, in International gas research conference proceedings, v. 1: Government Institutes Inc., Rockville, Maryland, p. 215-227.
  67. Holliger, K., and Robertson, J.O.A., 1995, Sonic log velocity variations and crack porosities in crystalline rock, PP5.7, in 1995 technical program expanded abstracts with biographies: Society of Exploration Geophysicists, p. 686-689.
  68. Hopkins, C.W., Frantz, J.H., Jr., Hill, D.G., and Zamora, F., 1995, Estimating fracture geometry in the naturally fractured Antrim Shale, SPE-30483, in Annual technical conference and exhibition proceedings, v. delta, Drilling: Society of Petroleum Engineers, p. 343-356.
  69. Horne, S.A., MacBeth, C.D., Queen, J., and Rizer, W.D., 1995, Fracture characterization at the Conoco borehole test facility using shear-wave anisotropy, PP1.1, in 1995 technical program expanded abstracts with biographies: Society of Exploration Geophysicists, p. 426-429.
  70. Ikeda, R., Yamamoto, T., and Omura, K., 1995, Fault fracture zone evaluation by well logging, paper J, in 1st annual well logging symposium of Japan, proceedings: Society of Professional Well Log Analysts, Japan Chapter, 5 p.
  71. Ilderton, D.C., Patzek, T.W., Rector, J.W., and Vinegar, H.J., 1994, Passive imaging of hydrofractures in the South Belridge diatomite, SPE-28383, in Annual technical conference and exhibition proceedings, v. omega, Formation evaluation and reservoir geology: Society of Petroleum Engineers, p. 213-228. Later published in 1996: SPE Formation Evaluation, v. 11, no. 1, p. 46-54.
  72. Ito, H., Kiguchi, T., Kuwahara, Y., Nakao, S., and Ohminato, T., 1995, Characterization of permeable fractures by hydrophone VSP, paper T [abstract only], in 1st annual well logging symposium of Japan, proceedings: Society of Professional Well Log Analysts, Japan Chapter, 1 p.
  73. Ito, T., Hayashi, K., and Zoback, M.D., 1992, Analysis of stress-induced wellbore breakouts in an arbitrarily oriented tectonic stress field: JSME International Journal, v. 35, p. 265-270.
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  75. Johnston, L.K., Campo, O., and Viloria, O., 1996, Application of azimuthal anisotropy from dipole shear sonic in western Venezuela, SPE-35291, in International petroleum conference and exhibition of Mexico proceedings: Society of Petroleum Engineers, p. 33-41.
  76. Jones, J.W., 1995, Scale-dependent resistivity measurements of Oracle granite: Geophysical Research Letters, v. 27, no. 11, June 1, p. 1453-1456.
  77. Jorgensen, L.N., Brown, A.A., and Redekop, G.E., 1994, Stress field orientation and fault trends offshore Qatar, in Al-Husseini, M.I., ed., Geo'94, the Middle East petroleum geosciences, v. 2: Gulf PetroLink, Manama, Bahrain, p. 561-570.
  78. Jumar, A.T.A., Majors, P.D., and Rossen, W.R., 1995, Measurement of aperture and multiphase flow in fractures using NMR imaging, SPE-30558, in Annual technical conference and exhibition proceedings, v. omega, Formation evaluation and reservoir geology: Society of Petroleum Engineers, p. 279-290.
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  82. Kendall, R.R., and Kendall, J.M., 1995, Modeling and interpreting shear-waves and fracture anisotropy in south-central Wyoming, IN1.6, in 1995 technical program expanded abstracts with biographies:: Society of Exploration Geophysicists, p. 297-300. Later published in 1996 as, Shear-wave amplitude anomalies in south-central Wyoming: The Leading Edge, v. 15, no. 8, p. 913-920.
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  86. Kikuchi, T., and Abe, M., 1995, Estimation of wave propagation characteristics around a borehole and a fracture, paper R, in 1st annual well logging symposium of Japan, proceedings: Society of Professional Well Log Analysts, Japan Chapter, 8 p.
  87. Koenig, R.A., Enever, J.R., Bocking, M.A., Forster, I., and Casey, D.A.., 1992, Experience with well testing and in-situ stress measurement in the Sydney Basin for evaluation of coalbed methane prospectivity, in Coalbed methane resource and development in Australia [Townsville, Australia (November 19-21)], symposium proceedings, v. 2: Energy Resources Development Corporation, p. 75-95.
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  99. Lorenz, J.C., Billingsley, R.L., and Evans, L.W., 1996, Permeability reduction by pyrobitumen, mineralization, and stress along large natural fractures in sandstones at 18,300 ft depth; destruction of a reservoir, SPE-36655, in Annual technical conference and exhibition proceedings, v. omega, Formation evaluation and reservoir geology: Society of Petroleum Engineers, p. 927-938.
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