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  • Acar, Y. Y., R. J. Gale, J. Hamed, G. Putnam, Acid/base distributions in electro-osmosis, Transp. Res. Rec., 1288, 2334, Transp. Res. Board, Washington, D. C., 1990.
  • Alshawabkeh, A., Y. B. Acar, Removal of contaminants from soils by electrokinetics: A theoretical treatise, J. Environ. Sci. Health, Part A, 27, 18351861, 1992.
  • Amaefule, J. O., K. Wolfe, J. D. Walls, A. O. Ajufo, E. Peterson, Laboratory determination of effective liquid permeability in low-quality reservoir rocks by the pulse decay technique, paper SPE 1514956th California Regional MeetingSoc. of Pet. Eng.Oakland, Calif.April 2–4, 1986.
  • Berlin, T. S., A. V. Khabakov, Differences in the electrokinetic potentials of carbonate sedimentary rocks of different origin and composition, Geochemistry, 3, 217230, 1961.
  • Bernabé, Y., The transport properties of networks of cracks and pores, J. Geophys. Res., 100, 42314241, 1995.
  • Bernabé, Y., Streaming potential in heterogeneous networks, J. Geophys. Res., 103, 2082720841, 1998.
  • Bernabé, Y., C. Bruderer, Effect of the variance of pore size distribution on the transport properties of heterogeneous networks, J. Geophys. Res., 103, 513525, 1998.
  • Bockris, J. O'M., andA. K. N. Reddy, Modern Electrochemistry, 2 vols., 1432 pp.,Plenum,New York,1970.
  • Borukhov, I., D. Andelman, H. Orland, Steric effects in electrolytes: A modified Poisson-Boltzmann equation, Phys. Rev. Lett., 79, 435438, 1997.
  • Bourbie, T., J. Walls, Pulse decay permeability: Analytical solution and experimental test, SPEJ Soc. Pet. Eng. J., 22, 719721, 1982.
  • Brown, R. J. S., Connection between formation factor for electrical resistivity and fluid-solid coupling factor in Biot's equations for acoustic waves in fluid-filled media, Geophysics, 45, 12691275, 1980.
  • Bussian, A. E., Electrical conductance in a porous medium, Geophysics, 48, 12581268, 1983.
  • Cao, Q. Z., P. Z. Wong, Numerical studies of the impedance of blocking electrodes with fractal surfaces, Phys. Rev. B, 50, 57715774, 1994.
  • Clennell, M. B., Tortuosity: A guide through the maze, Developments in PetrophysicsM. A. Lovell, P. K. Harvey, Geol. Soc. Spec. Publ., 122, 299344, 1997.
  • Coelho, D., M. Shapiro, J. F. Thovert, P. M. Adler, Electroosmotic phenomena in porous media, J. Colloid Interface Sci., 181, 169190, 1996.
  • Cooke Jr., C. E., Study of electrokinetic effects using sinusoidal pressure and voltage, J. Chem. Phys., 23, 22992303, 1955.
  • deGroot, S. R., andP. Mazur, Non-equilibrium Thermo-dynamics,North-Holland,New York,1962. (Reprinted,Dover,Mineola N. Y.,1984.).
  • Derjaguin, B. V., N. V. Muller, V. M. Muller, Surface Forces, 440, Consult. Bureau, New York, 1987.
  • Finno, R. J., K. Y. Chung, J. Yin, J. R. Feldkamp, Coefficient of permeability from AC electroosmosis experiments, II, Results, J. Geophys. Eng., 1225, 355364, 1996.
  • Geertsma, J., Estimating the coefficient of inertial resistance in fluid flow through porous media, Soc. Pet. Eng. J., 14, 445450, 1974.
  • Goggin, D. J., Probe permeametry: Is it worth the effort?, Mar. Pet. Geol., 10, 299308, 1993.
  • Gray, D. H., Electrochemical hardening of clay soils, Geotechnique, 20, 8193, 1970.
  • Horowitz, P., W. Hill, The Art of Electronics2nd ed., 1125, Cambridge Univ. Press, New York, 1989.
  • Ishido, T., H. Mizutani, Experimental and theoretical basis of electrokinetic phenomena in rock-water systems and its applications to geophysics, J. Geophys. Res., 86, 17631775, 1981.
  • Johnson, D. L., J. Koplik, R. Dashen, Theory of dynamic permeability and tortuosity in fluid-saturated porous media, J. Fluid Mech., 176, 379402, 1987.
  • Jones, S. C., A rapid accurate unsteady-state Klinkenberg permeameter, Soc. Pet. Eng. J., 12, 383397, 1972.
  • Jones, S. C., A new, fast, accurate pressure-decay probe permeameter, SPE Form. Eval., 9, 193199, 1994.
  • Jouniaux, L., J.-P. Pozzi, Streaming potential and permeability of saturated sandstones under triaxial stress: Consequences for electrotelluric anomalies prior to earthquakes, J. Geophys. Res., 100, 1019710209, 1995.
  • Jouniaux, L., J.-P. Pozzi, Laboratory measurements anomalous 0.1–0.5 Hz streaming potential under geochemical changes: Implications for electrotelluric precursors to earthquakes, J. Geophys. Res., 102, 1533515343, 1997.
  • Katz, A. J., A. H. Thompson, Quantitative prediction of permeability in porous rock, Phys. Rev. B, 34, 81798181, 1986.
  • Kenyon, W. E., P. I. Day, C. Straley, J. F. Willemsen, Compact and consistent representation of rock NMR data for permeability estimation, paper SPE 1564361st Annum Technical Conference and ExhibitionSoc. of Pet. Eng.New Orleans, La.Oct. 5–8, 1986.
  • Kleinberg, R. L., Probing oil wells with NMR, Ind. Phys., 22, 1821, 1996.
  • Kleinberg, R. L., A. Sezginer, D. D. Griffin, M. Fukuhara, Novel NMR apparatus for investigating an external sample, J. Magn. Reson., 97, 466472, 1992.
  • Klinkenberg, L. J., The permeability of porous media to liquids and gases, Drill. Prod. Pract., 8, 200213, 1941.
  • Koplik, J., C. Lin, M. Vermette, Conductivity and permeability from microgeometry, J. Appl. Phys., 56, 31273131, 1984.
  • Kortüm, G., Treatise on Electrochemistry, 637, Elsevier Sci., New York, 1965.
  • Lane, J., J. Saxon, Dielectric dispersion in pure polar liquids at very high frequencies, III, The effect of electrolytes in solution, Proc. R. Soc. London, Ser. A, 213, 531545, 1952.
  • Le Mehaute, A., G. Crepy, Introduction to transfer and motion in fractal media: The geometry of kinetics, Solid State Ionics, 9–10, 1730, 1983.
  • Li, S. X., D. B. Pengra, P. Z. Wong, Onsager's reciprocal relation and the hydraulic permeability of porous media, Phys. Rev. E, 51, 57485751, 1995.
  • Ma, J., H. Qi, P. Z. Wong, Experimental study of multilayer adsorption on fractal surfaces in porous media, Phys. Rev. E, 59, 20492059, 1999.
  • Macevoy, W., M. Avellaneda, Electro-osmotic coupling: Incorporating larger surface effects with a new length scale, J. Colloid Interface Sci., 188, 139149, 1997.
  • Mattke, T., H.-J. Kecke, Molecular dynamic simulations of single, interacting and sheared double layers, 1, Configuration of a double layer, J. Colloid Interface Sci., 208, 555561, 1998a.
  • Mattke, T., H.-J. Kecke, Molecular dynamic simulations of single, interacting and sheared double layers, 2, Influence of system properties, overlap, and shear, J. Colloid Interface Sci., 208, 562569, 1998b.
  • Mitchell, J. K., S. Banerjee, In-situ volume change properties by electro-osmosis-Evaluation, J. Geotech. Eng., 106, 367384, 1980.
  • Morgan, F. D., E. R. Williams, T. R. Madden, Streaming potential properties of Westerly granite with applications, J. Geophys. Res., 94, 1244912461, 1989.
  • Neev, J., F. R. Yeatts, Electrokinetic effects in fluidsaturated poroelastic media, Phys. Rev. B, 40, 91359141, 1989.
  • Oelhoeft, G. R., Low-frequency electrical properties, Geophysics, 50, 24922503, 1985.
  • Onsager, L., Reciprocal relations in irreversible processes I, Phys. Rev., 37, 405426, 1931a.
  • Onsager, L., Reciprocal relations in irreversible processes II, Phys. Rev., 38, 22652279, 1931b.
  • Packard, R. G., Streaming potentials across glass capillaries for sinusoidal pressure, J. Chem. Phys., 21, 303307, 1953.
  • Pajkossy, T., Impedance of rough capacitive electrodes, J. Electroanal. Chem., 364, 111125, 1994.
  • Pengra, D. B., P. Z. Wong, Electrokinetic phenomena in porous media, Disordered Materials and InterfacesH. Z. Cummins, et al., Mat. Res. Soc. Symp. Proc., 407, 314, 1996.
  • Pengra, D. B., P.-z. Wong, Temperature and chemistry effects in porous-media electrokinetics, Statistical Mechanics in Physics and BiologyD. Wirtz, T. C. Halsey, Mat. Res. Soc. Symp. Proc., 463, 233238, 1997.
  • Pride, S., Governing equations for the coupled electromagnetics and acoustics of porous media, Phys. Rev. B, 50, 1567815696, 1994.
  • Revil, A., L. M. Cathles III, S. Losh, J. A. Nunn, Electrical conductivity in shaly sands with geophysical applications, J. Geophys. Res., 103, 2392523936, 1998.
  • Scheidegger, A. E., The Physics of Flow Through Porous Media3rd ed., 353, Univ. of Toronto Press, Toronto, 1974.
  • Sears, A. R., J. N. Groves, The use of oscillating laminar flow streaming potential measurements to determine the zeta potential of a capillary surface, J. Colloid Interface Sci., 65, 479482, 1978.
  • Somasundaran, P., R. D. Kulkarni, A new streaming potential apparatus and study of temperature effects using it, J. Colloid Interface Sci., 45, 591600, 1973.
  • Sprunt, E. S., T. B. Mercer, N. F. Djabbarah, Streaming potential from multiphase flow, Geophysics, 59, 707711, 1994.
  • Swanson, B. F., A simple correlation between permeabilities and mercury capillary pressures, J. Pet. Technol., 33, 24982504, 1981.
  • Thompson, A. H., S. W. Sinton, S. L. Huff, A. J. Katz, R. A. Rashke, G. A. Gist, Deuterium magnetic resonance and permeability in porous media, J. Appl. Phys., 65, 32593263, 1989.
  • Tyc, S., L. M. Schwartz, P. N. Sen, P. Z. Wong, Geometrical models for the high-frequency dielectric properties of brine saturated sandstones, J. Appl. Phys., 64, 25752582, 1988.
  • Vinegar, H. J., M. H. Waxman, Induced polarization of shaly sands, Geophysics, 49, 12671287, 1984.
  • , The Handbook of Chemistry and Physics51st ed.R. C. Weast, et al., Chem. Rubber Co., Cleveland, Ohio, 1971.
  • Wong, P. Z., Fractal surfaces in porous media, Physics and Chemistry of Porous MediaJ. Banavar, J. Koplik, K. W. Winkler, AIP Conj. Proc., 154, 304318, 1987.
  • Wong, P. Z., Flow in porous media: Permeability and displacement patterns, Mater. Res. Soc. Bull., XIX, 3238, 1994.
  • Wong, P. Z., U. S. Letters Patent 5,417,104U.S. Patent and Trademark,Washington, D. C.,1995.
  • Wong, P. Z., U. S. Letters Patent 5,503,001U.S. Patent and Trademark,Washington, D. C.,1996.
  • Wong, P. Z., J. Howard, J.-S. Lin, Surface roughening and the fractal nature of rocks, Phys. Rev. Lett., 57, 637640, 1986.
  • Wong, P. Z., J. Koplik, J. P. Tomanic, Conductivity and permeability of rocks, Phys. Rev. B, 30, 66066614, 1984.
  • Wong, P. Z., D. B. Pengra, Pore-size, permeability and electrokinetic phenomena, Access in Nanoporous MaterialsT. J. Pinnavaia, M. F. Thorpe, 295317, Plenum Press, New York, N. Y., 1995.
  • Wyckoff, R. D., H. G. Botset, M. Muskat, D. W. Reed, The measurement of the permeability of porous media for homogeneous fluids, Rev. Sci. Instrum., 4, 394405, 1933.
  • Wyllie, M. R. J., An investigation of the electrokinetic component of the self potential curve, Trans. Am. Inst. Met., 192, 118, 1951.
  • Yin, J., R. J. Finno, J. R. Feldkamp, K. Chung, Coefficient of permeability from AC electroosmosis experiments, I, Theory, J. Geotech. Eng., 1225, 346354, 1996.