Analysis of fracture network connectivity using percolation theory
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Aharony, A., 1986, Percolation,in Grinstein, G., and Mazenko, G., ed., Directions in condensed matter physics: World Scientific, Singapore, p. 1–50.
Balberg, I., 1986, Connectivity and conductivity in 2-D and 3-D fracture systems,in Englman, R., and Jaeger, Z., ed., Proc. Intern. Conf. on Fragmentation, Form and Flow in Fractured Media: Annals Israel Physical Society, No. 8, Adam Hilger, Bristol, p. 89–101.
Balberg, I., Berkowitz, B., and Drachsler, G. E., 1991, Application of a percolation model to flow in fractured hard rocks: Jour. Geophys. Res., v. 96, no. B6, p. 10015–10021.
Balberg, I., Anderson, C. H., Alexander, S., and Wagner, N., 1984, Excluded volume and its relation to the onset of percolation: Phys. Rev. B. v. 30, no. 7, p. 3933–3943.
Barton, C. C., 1995, Fractal analysis of scaling and spatial clustering of fractures,in Barton, C. C., and LaPointe, P. R., eds., Fractals in the earth sciences: Plenum Press, New York, p. 141–178.
Berkowitz, B., and Balberg, I., 1992, Percolation approach to the problem of hydraulic conductivity in porous media: Transp. Porous Media, v. 9, no. 3, p. 275–286.
Berkowitz, B., and Balberg, I., 1993, Percolation theory and its application to groundwater hydrology: Water Resour. Res., v. 29, no. 4, p. 775–794.
Charlaix, E., Guyon, E., and Rivier, N., 1984, A criterion for percolation threshold in a random array of plates: Solid State Commun., v. 50, no. 11, p. 999–1002.
Chelidze, T. L., 1982, Percolation and fracture: Phys. Earth Planet. Interiors, v. 28, no. 2. p. 93–101.
Clemo, T., 1994, Dual permeability modeling of fractured media: unpubl. doctoral dissertation, Univ. British Columbia, Vancouver, 279 p.
David, C., Gueguen, Y., and Pampoukis, G., 1990, Effective medium theory and network theory applied to the transport properties of rock: Jour. Geophys. Res., v. 95, no. B5, p. 6993–7005.
de Marsily, G., 1985, Flow and transport in fractured rocks: connectivity and scale effect: IAH Intern. Symp. Hydrogeology of Rocks of Low Permeability: Intern. Assoc. Hydrogeologists (Tucson), v. 17, pt. 2. p. 267–277.
Englman, R., Gur, Y., and Jaeger, Z., 1983, Fluid flow through a crack network in rocks: Jour. Appl. Mech., v. 50, p. 707–711.
Gueguen, Y., David, C., and Gavrilenko, P., 1991, Percolation networks and fluid transport in the crust: Geophys. Res. Lett., v. 18, no. 5. p. 931–934.
Harris, C. K., 1990, Application of generalised effective-medium theory to transport in porous media: Transp. Porous Media, v. 5, p. 517–542.
Hestir, K., and Long, J. C. S., 1990, Analytical expressions for the permeability of random two-dimensional Poisson fracture networks based on regular lattice percolation and equivalent media theories: Jour. Geophys. Res., v. 95, no. B13, p. 21565–21581.
Kulatilake, P. H. S. W., 1988, State-of-the-art in stochastic joint geometry modeling,in Cundall, P. A., ed., Key questions in rock mechanics: Balkema, Rotterdam. p. 215–229.
Long, J. C. S., and Billaux, D. M., 1987, From field data to fracture network modeling: an example incorporating spatial structure: Water Resources Res., v. 23, no. 7, p. 1201–1216.
Pike, G. E., and Seager, C. H., 1974, Percolation and conductivity: a computer study, I: Phys. Rev. B, v. 10, no. 4, p. 1421–1434.
Robinson, P. C., 1983, Connectivity of fracture systems—a percolation theory approach: Jour. Phys. A: Math. Gen., v. 16, no. 3, p. 605–614.
Robinson, P. C., 1984, Numerical calculations of critical densities for lines and planes: Jour. Phys. A: Math. Gen., v. 17, no. 14, p. 2823–2830.
Rouleau, A., and Gale, J. E., 1985, Statistical characterization of the fracture system in the Stripa granite, Sweden: Intern. Jour. Rock Mech. Min. Sci. and Geomech. Abstr., v. 22, p. 353–367.