References

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  1. Seright, R.S, Liang J., Lindquist, W.B., and Dunsmuir, J.H.: “Characterizing Disproportionate Permeability Reduction Using Synchrotron X-Ray Computed Microtomography,” SPEREE (Oct. 2002) 355-364.
  2. Seright, R.S.: “Conformance Improvement Using Gels,” Annual Technical Progress Report (U.S. DOE Report DOE/BC/15316-4), U.S. DOE Contract DE-FC26-01BC15316 (Sept. 2003) 2-34.
  3. Seright, R.S., Prodanovic, M., and Lindquist, W.B.: "X-Ray Computed Microtomography Studies of Disproportionate Permeability Reduction," paper SPE 89393 presented at the 2004 SPE/DOE Symposium on Improved Oil Recovery, Tulsa, OK, April 17-21.
  4. Boneau, D.F. and Clampitt, R.L.: “A Surfactant System for the Oil-Wet Sandstone of the North Burbank Unit,” JPT (May, 1977) 501-506.
  5. Dunsmuir, J.H., et al.: X—Ray Microtomography: A New Tool for the Characterization of Porous Media, paper SPE 22860 presented at the 1991 SPE Annual Technical Conference and Exhibition, Dallas, TX, Oct. 6-9.
  6. Flannery, B.P., et al.: “Three-Dimensional X—Ray Microtomography,” Science (Sept. 1987) 237, 1389.
  7. Seright, R.S, Liang J., Lindquist, W.B., and Dunsmuir, J.H.: “Use of X-Ray Computed Microtomography to Understand Why Gels Reduce Permeabilty to Water More Than That to Oil,” J. Petro. Sci. Engin. (Sept. 2003) 39, 217-230.
  8. Lindquist, W.B., Lee, S.M., Coker, D.A., Jones, K.W., and Spanne P.: “Medial Axis Analysis of Void Structure in Three-Dimensional Tomographic Images of Porous Media,” J. Geophys. Res. (April 1996) 101, 8297-8310.
  9. Lindquist, W.B. and Venkatarangan, A.: “Investigating 3D Geometry of Porous Media from High Resolution Images,” Phys. Chem. Earth (A) (1999) 25, 593-599.
  10. Lindquist, W.B., Venkatarangan, A., Dunsmuir, J. and Wong, T.-f.: “Pore and Throat Size Distributions Measured from Synchrotron X-Ray Tomographic Images on Fontainebleau Sandstones,” J. Geophy. Res. (Sept. 2000) 105, 21508-21528.
  11. Lindquist, W.B.: “3DMA-Rock: A Software Package for Automated Analysis of Rock Pore Structure in 3D Computed Microtomography Images,” http://www.ams.sunysb.edu/~lindquis/3dma/3dma_rock/3dma_rock.html.
  12. Oh, W. and Lindquist, W.B.: “Image Thresholding by Indicator Kriging,” IEEE Trans.Pattern Alan. Mach. Intell. (July 1999) 21, 590-602.
  13. Shin, S., Lindquist, W.B., Sahagian, D.L., and Song, S.-R..: “Analysis of the Vesicular Structure of Basalts,” Comput. & Geosci. (May 2005) 31, 473-487.
  14. Prodanovic, M., Lindquist, W.B., and Seright, R.S.: “Porous Structure and Fluid Partitioning in Polyethylene Cores from 3D X-Ray Microtomographic Imaging,” J. Colloid Interf. Sci., submitted.
  15. Pitas, I.: Digital Image Processing Algorithms, Prentice Hall (1993).
  16. Dullien, F.A.L. et al.: “The Effects of Surface Roughness on the Capillary Pressure Curves and the Heights of Capillary Rise in Glass Bead Packs,” J. Colloid Interf. Sci. (Feb. 1989) 127, 362-372.
  17. Chatzis, I., Morrow, N.R., and Lim, H.T.: “Magnitude and Detailed Structure of Residual Oil Saturation,” SPEJ (April 1983) 311-326.
  18. Wang, D. et al: “Study of the Mechanism of Polymer Solution with Visco-Elastic Behavior Increasing Microscopic Oil Displacement Efficiency and the Forming of Steady Oil Thread Flow Channels,” paper SPE 68723 presented at the 2001 SPE Asia Pacific Oil and Gas Conference and Exhibition, Jakarta, Indonesia, April 17-19.
  19. Seright, R.S.: “Using Chemicals to Optimize Conformance Control in Fractured Reservoirs,” Annual Technical Progress Report (U.S. DOE Report DOE/BC/15110-2), U.S. DOE Contract DE-AC26-98BC15110, (Sept. 1999) 21-28.
  20. Seright, R.S.: “Effect of Rock Permeability on Gel Performance in Fluid-Diversion Applications,” In Situ (1993) 17, 363-386.
  21. Al-Sharji, H.H., et al.: “Pore-Scale Study of the Flow of Oil and Water through Polymer Gels,” paper SPE 56738 presented at the 1999 SPE Annual Technical Conference and Exhibition, Houston, TX, Oct. 3-6.
  22. Zaitoun, A. and Bertin, H.: “Two-Phase Flow Property Modifications by Polymer Adsorption,” paper SPE 39631 presented at the 1996 SPE/DOE Improved Oil Recovery Symposium, Tulsa, OK, April 19-22.
  23. Willhite, G.P., et al.: “Mechanisms Causing Disproportionate Permeability in Porous Media Treated With Chromium Acetate/HPAAM Gels,” SPEJ (March 2002) 100-108.
  24. Ganguly, S., et al.: “Effect of Flow Rate on Disproportionate Permeability Reduction,” paper SPE 80205 presented at the 2003 SPE International Symposium on Oilfield Chemistry, Houston, TX, Feb. 5-7.
  25. Nguyen, T.Q., et al.: “Effect of Composition of a Polyacrylamide-Chromium(III) Acetate Gel on the Magnitude of Gel Dehydration and Disproportionate Permeability Reduction,” paper SPE 89404 presented at the 2004 SPE/DOE Symposium on Improved Oil Recovery, Tulsa, OK, April 17-21.
  26. Liu, J., and Seright, R.S.: “Rheology of Gels Used For Conformance Control in Fractures,” SPEJ (June 2001) 120-125.
  27. Seright, R.S.: “Washout of Cr(III)-Acetate-HPAM Gels from Fractures,” paper SPE 80200 presented at the 2003 SPE International Symposium on Oilfield Chemistry, Houston, TX, Feb. 5-7.
  28. Liang, J., Sun, H., and Seright, R.S.: “Reduction of Oil and Water Permeabilities Using Gels,” paper SPE 24195 presented at the 1992 SPE/DOE Symposium on Enhanced Oil Recovery, Tulsa, OK, April 22-24.
  29. Seright, R.S.: “Conformance Improvement Using Gels,” Annual Technical Progress Report (U.S. DOE Report DOE/BC/15316-6), U.S. DOE Contract DE-FC26-01BC15316 (Sept. 2004) 16-46.