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Badania laboratoryjne porowato-szczelinowych właściwości skał węglanowych w aspekcie wiercenia otworów poziomych i kierunkowych

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PL
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Rocznik
Tom
Strony
115--167
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Bibliogr. 46 poz., tab., wykr., zdj.
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autor
autor
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autor
  • Instytut Nafty i Gazu
Bibliografia
  • 1. Allen D. i zespół, 2000, Trends in NMR Logging. Oilfield Review, Autumn.
  • 2. Armbrecht J., Sych T., Robb K., 2006, Mavi-Modular Algorithms for Volume Images V 1.9.1, Handbook, Fraunhofer Institut fur Techno- und Wirtschaftsmathematik.
  • 3. Appoloni C.R., Macedo A., Fernandes C.P., Philippi P.C., 2002, Characterization of porous microstructure by X-ray microtomography. X-ray Spectrometry, v. 31, p. 124-127.
  • 4. Archie G.E., 1952, Classification of carbonate reservoir rocks and petrophysical considerations. AAPG Bulletin, v. 36, p. 278-298.
  • 5. Arns C.H., Knackstedt M.A., Pinczewski W.V., Martys N.S., 2004a, Virtual permeametry on microtomographic images. Journal of Petroleum Science and Engineering, v. 45, p. 41-46.
  • 6. Arns C.H., 2004b, A comparison of pore size distributions derived by NMR and X-ray CT techniques. Physica A, v. 339, p. 159-165.
  • 7. Arns J.Y., Arns C.H., Sheppard A.P., Sok R.M., Knackstedt M.A., Pinczewski W.V., 2003, Relative permeability from tomographic images; effect of correlated heterogeneity. Journal of Petroleum Science and Engineering, v. 39, p. 247-259.
  • 8. Arns C.H., Knaekstedt M.A., Pinczewski W.V., Garboczi E.J., 2002, Computation of linear elastic properties from microtomographic images: methodology and agreement between theory and experiment. Geophysics, v. 67, p. 1396-1405.
  • 9. Castle J.W., Byrnes A.P., 2005, Petrophysics of Lower Silurian sandstones and integration with the tectonostratigraphic framework, Appalachian basin, United States. AAPG Bulletin, v. 89, n. 1, p. 41-60.
  • 10. Cerepi A., Barde J.-P, Labat N., 2003, High-resolution characterization and integrated study of a reservoir formation: the danian carbonate platform in the Aquitaine Basin (France). Marine and Petroleum Geology, v. 20, p. 1161-1183.
  • 11. Chang D., Vinegar H., Morris Ch., Straley Ch., 1997, Effective Porosity, Producible Fluid and Permeability in Carbonates from NMR Logging. The Log Analyst, March-April, 60-72.
  • 12. Ciechanowska M., Zalewska J., 2002, Analiza zbiornikowych własności skal przy wykorzystaniu zjawiska jądrowego rezonansu magnetycznego NNIR. Nafta-Gaz 1.
  • 13. Coates G.R., Xiao R., Prammer M.G., 1999, NMR Logging Principles and Applications. Halliburton Energy Services. Houston.
  • 14. Coles M.E., Hazlett R.D., Spanne P., Soll W.E., Muegge E.L., Jones K.W., 1998a, Pore level imaging of fluid transport using synchrotron X-ray microtomography. Journal of Petroleum Science and Engineering, v. 19, p. 55-63.
  • 15. Coles M.E., Hazlett R.D., Muegge E.L., Jones K.W., Andrews A., Dowd B., Siddons P., Peskin A., Spanne P., Soll W.E., 1998b, Developments in synchrotron X-ray microtomography with applications to flow in porous media. SPE Reservoir Evaluation & Engineering, v. 1, p. 288-296.
  • 16. Cnudde V., 2005, Exploring the potential of X-ray tomography as a new non-destructive research tool in conservation studies of natural building stones. IWT-Vlaanderen, Belgia.
  • 17. Ehrenberg S.N., Eberli G.P., Keramati M., Moallemi S.A., 2006, Porosity, permeability relationships in inter-layered limestone-dolostone reservoirs. AAPG Bulletin, v. 90, p. 91-114.
  • 18. Glemser C.T., 2007, Petrophysical and geochemical characterization of Midale Carbonates from the Weyburn oilfield usin synchrotron x-ray computed microtomography. Thesis.
  • 19. Gostkowska B., Zajdel J., 1977, Wybrane zagadnienia fizyki jądrowej. ROINTE Energetyki i Energii Atomowej, Warszawa.
  • 20. Jarzyna J., 1998, Otworowe profilowanie jądrowego rezonansu magnetycznego - nowa, efektywna metoda wyznaczania właściwości zbiornikowych skal. Nafta-Gaz, nr 5, 215-222.
  • 21. Jones K.W., Feng H., Tomov S., Winters W.J., Prodanovic M., Mahajan D., 2007, Characterization of methane hydrate host sediments using synchrotron-computed microtomography (CMT). Journal of Petroleum Science and Engineering, v. 56, p. 136-145.
  • 22. Kayser A., Knackstedt M., Ziauddin M., 2006, A closer look at pore geometry. Oilfield Review, v. 18, no. 1, p. 4-13.
  • 23. Kenyon W.E., 1998, Petrophysical Principles of Applications of NMR Logging. The Log Analyst, March-April, 21-43.
  • 24. Klaja J., Gąsior I., 2008, Zastosowanie metody magnetycznego rezonansu jądrowego do oceny parametrów zbiornikowych skał na przykładzie złoża gazu ziemnego Palikówka. Prace Instytutu Nafty i Gazu, I55, 1-77.
  • 25. Kleinberg R.L., Vinegar H.J.; 1996, NMR Properties of Reservoir Fluids. The Log Analyst, November-December, 20-32.
  • 26. Klobes P., Riesemeier H., Meyer K., Goebbels J., Hellmuth K.H., 1997, Rock porosity determination by combination of X-ray computerized tomography with mercury porosimetry. Fresenius Journal of Analytical Chemistry, v. 357, p. 543-547.
  • 27. Kozeny J., 1927, Ueber kapillare leitung des wassers im boden. Sitzungsberichte Wiener Akademie, v. 136 (2a), p. 271-306.
  • 28. Lindquist W.B., Venkatarangan A., Dunsmuir J., Wong T-F., 2000, Pore and throat size distributions measured from synchrotron X-ray tomographic images of Fontainebleau sandstones. Journal of Geophysical Research, v. 105, p. 21509-21527.
  • 29. Lindquist W.B., 1999, 3DMA-Rock, a software package for automated analysis of pore rock structure in 3D computed microtomography images. Available from: http://www.ams.sunysb.edu.
  • 30. Lindquist W.B., Venkatarangan A., 1999, Investigatin 3D geometru of porous media from high resolution images. Physics and Chemistry of the Earth (A), v. 25, p. 593-599.
  • 31. Lindquist W.B., Lee S., 1996, Medial axis analysis of void structure in threedimensional tomographic images of porous media. Journal of Geophysical Research, v. 101 (B4), p. 8297-8310.
  • 32. Lonoy A., 2006, Making sense of carbonate pore systems. AAPG Bulletin, v. 90, p. 1381-1495.
  • 33. Materiały informacyjne firmy SkyScan.
  • 34. Nakashima Y., Nakano T., Nakamura K., Uesugi K., Tsuchiyama A., Ikeda S., 2004, Three-dimensional diffusion of non-sorbing species in porous sandstone: computer simulation based on X-ray microtomography using synchrotron radiation. Journal of Contaminant Hydrology, v. 74, p. 253-264.
  • 35. Ostroff G.M., Shorey D.S., Georgi D.T., 1999, Integration of NMR and conventional log data for improved petrophysical evaluation of shaly sands. SPWLA 40th Annual Logging Symposium, Oslo, 0001-4.
  • 36. Padhy G.S., Lemaire C., Amirtharaj E.S., Ioannidis M.A., 2007, Pore size distribution in multiscale porous media as revealed by DDIF-NMR, mercury porosimetry and statistical image analysis. Journal of Colloids and Surfaces A: Physicochemical and Engineering Aspects, v. 300, p. 222-234.
  • 37. Prodanovic M., Lindquist W.B., Seright R.S., 2007, 3D image-based characterization of fluid displacement in a Berea core. Advances in Water Resources, v. 30, p. 214-226.
  • 38. Radlinski A.P, Ioannidis M.A., Hinde A.L., Hainbuchner M., Baron M., Rauch H., Kline S.R., 2004, Angstrom-to-millimeter characterization of sedimentary rock microstructure. Journal of Colloid and Interface Science, v. 274, p. 607-612.
  • 39. Schlumberger: CMR Cobinable Magnetic Resonance Tool — User's Guide Schlumberger, 1997.
  • 40. Skrzyński W., 2004, Rentgenowska tomografia komputerowa, cz. 2. Zakład Radiologii Centrum Onkologii w Bydgoszczy.
  • 41. Spanne P., Rivers M.L., 1987, Comperterized microtomography using synchrotron radiation from the NSLS. Nuclear Instruments and Methods in Physics Research B, v. 24-25, p. 1063-1067.
  • 42. Spanne P., Thorvert J.F., Jacquin C.J., Lindquist W.B., Jones W.B., Adler P.M., 1994, Synchrotron computed microtomography of porous media: topology and transports. Physical Review Letters, v. 73, p. 2001-2004.
  • 43. Turner M.L., Knufing L., Arns C.H., Sakellariou A., Senden T.J., Sheppard A.P., Sok R.M., Limaye A., Pinczewski W. V., Knackstedt M.A., 2004, Threedimensional imaging of' multiphase flow in porous media. Physica A, v. 339, p. 166-172.
  • 44. Wellington S.L., Vinegar H.J., 1987, X-ray computerized tomography. Journal of Petroleum Technology, v. 39, p. 885-898.
  • 45. Wildenschild D., Hopmans J.W., Vaz C.M.P., Rivers M.L., Rikard D., Christensen B.S.B., 2002, Using X-ray computed tomography in hydrology: systems, resolutions, and limitations. Journal of Hydrogeology, v. 267, p. 285-297.
  • 46. Vinegar H.J., 1986, X-ray CT and NMR imaging of rocks. Journal of Petroleum Technology, v. 38, p. 257-259.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-AGHM-0054-0079
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