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1 J. Bear. Dynamics of Fluids in Porous Media. Elsevier Publ. Co., New York, 1972.
2 M. Blunt, M.J. King, and H. Scher. Simulation and theory of two-phase flow in porous media. Phys. Rev. A, 46:7680, 1992.
3 M. Blunt and P. King. Macroscopic parameters from simulations of pore scale flow. Phys. Rev. A, 42:4780, 1990.
4 H.J. Butt, K.H. Graf, and M. Kappl. Physics and Chemistry of Interfaces. Wiley-VCH, Weinheim, 2003.
5 R.E. Collins. Flow of Fluids through Porous Materials. Reinhold Publishing Co., New York, 1961.
6 M.M. Dias and A.C. Payatakes. Network models for two-phase flow in porous media I: Immiscible microdisplacement of non-wetting fluids. J. Fluid Mech., 164:305, 1986.
7 M.I.J.van Dijke and K. Sorbie. Pore-scale network model for three-phase flow in mixed-wet porous media. Phys.Rev.E, 66:046302, 2002.
8 F.A.L. Dullien. Porous Media - Fluid Transport and Pore Structure. Academic Press, San Diego, 1992.
9 I. Fatt. The network model of porous media I. capillary pressure characteristics. AIME Petroleum Transactions, 207:144, 1956.
10 M. Ferer, G.S. Bromhal, and D.H. Smith. Pore-level modeling of drainage: Crossover from invasion percolation fingering to compact flow. Phys.Rev.E, 67:051601, 2003.
11 S.M. Hassanizadeh, M.A. Celia, and H.K. Dahle. Dynamic effect in the capillary pressure-saturation relationship and its impacts on unsaturated flow. Vadose Zone Journal, 1:38, 2002.
12 R. Helmig. Multiphase Flow and Transport Processes in the Subsurface. Springer, Berlin, 1997.
13 R. Hilfer. Transport and relaxation phenomena in porous media. Advances in Chemical Physics, XCII:299, 1996.
14 R. Hilfer. Macroscopic equations of motion for two phase flow in porous media. Physical Review E, 58:2090, 1998.
15 R. Hilfer and H. Besserer. Macroscopic two phase flow in porous media. Physica B, 279:125, 2000.
16 R. Hilfer and H. Besserer. Old problems and new solutions for multiphase flow in porous media. In A. Dmitrievsky and M. Panfilov, editors, Porous Media: Physics, Models, Simulation, page 133, Singapore, 2000. World Scientific Publ. Co.
17 R. Hilfer and R. Helmig. Dimensional analysis and upscaling of two-phase flow in porous media with piecewise constant heterogeneities. Adv. Water Res., 27:1033, 2004.
18 L.W. Lake. Enhanced Oil Recovery. Prentice Hall, Englewood Cliffs, 1989.
19 M. Leverett. Capillary behaviour in porous solids. Trans. AIME, 142:152, 1941.
20 J.B. Maillet and P.V. Coveney. Two-dimensional hydrodynamic lattice-gas simulations of binary immiscible and ternary amphiphilic fluid flow through porous media. Phys.Rev.E, 62:2898, 2000.
21 N.R. Morrow(ed.). Interfacial Phenomena in Petroleum Recovery, volume 36 of Surfactant Science Series. Marcel Dekker, Inc., New York, 1991.
22 M. Muskat. The Flow of Homogeneous Fluids through Porous Media. McGraw Hill, New York, 1937.
23 M. Muskat and M. Meres. Flow of heterogeneous fluids through porous media. Physics, 7:346, 1936.
24 A.E. Scheidegger. The Physics of Flow Through Porous Media. University of Toronto Press, Canada, 1957.
25 H. Sheta. Simulation von Mehrphasenvorgängen in porösen Medien unter Einbeziehung von Hysterese-Effekten. PhD thesis, Institut für Wasserbau, Universität Stuttgart, 1999.
26 W.O. Smith, P.D. Foote, and P.F. Busang. Capillary rise in sands of uniform spherical grains. Physics, 1:18, 1931.
27 E. Spiteri and R. Juanes. Impact of relative permeability hysteresis on the numerical simulation of WAG injection. paper SPE89921 presented 2004 SPE Annual Technical Conference, Houston Texas, USA, 2004.
28 R.D. Wyckoff and H. Botset. Flow of gas-liquid mixtures through unconsolidated sands. Physics, 7:325, 1936.