Page 173 - gas transport in porous media

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166
Rogerson, A.M., and Meiburg, E., Shear stabilization of miscible displacement process in porous media.
Phys. Fluids A 5, 1344, (1993a). Sahimi et al.
Rogerson, A.M., and Meiburg, E., Numerical simulation of miscible displacement processes in porous
media flows under gravity. Phys. Fluids A 5 (1993b).
Russell, T.F., and Wheeler, M.F., Finite element and finite difference methods for continuous flows in
porous media, In, Mathematics of Reservoir Simulation, edited by R.E. Ewing, (SIMA, Philadelphia,
1983), p. 35.
Saevareid, A., Whitson, C.H., and Fevang, O., An engineering approach to measuring gas condensate
relative permeabilities, SCA 9930, International Symposium of the Society of Core Analysis, Golden,
Colorado (1999).
Sahimi, M., 1993a, Flow phenomena in rocks: From continuum models, to fractals, percolation, cellular
automata, and simulated annealing. Rev. Mod. Phys. 65, 1393 (1993a).
Sahimi, M., Fractal and superdiffusive transport and hydrodynamic dispersion in heterogeneous porous
media. Transport in Porous Media 13, 3 (1993b).
Sahimi, M., Flow and Transport in Porous Media and Fractured Rock, (VCH, Weinheim, Germany, 1995).
Sahimi, M., Heterogeneous Materials, Volume I (springer, New York, 2003).
Sahimi, M., Davis, H.T., and Scriven, L.E., Thermodynamic modeling of phase and tension behavior of
carbon dioxide-hydrocarbon systems. SPE 10268 (1985).
Sahimi, M., and Taylor, B.N., Surface tension of binary liquid-vapor mixtures:Acomparison of mean-field
and scaling theories. J. Chem. Phys. 95, 6749 (1991).
Schechter, D.S., Immiscible flow behaviour in porous media. Ph.D. dissertation, University of Bristol,
United Kingdom (1988).
Schechter, D.S., and Haynes, J.M., Relative permeabilities of a near-critical binary fluid. Transport in
Porous Media 9, 241 (1992).
Schmidt, T., Leshchyshyn, T.H., and Puttagunta, V.R., Diffusion of carbon dioxide into athabasca bitumen.
33rdAnnualTechnicalMeetingofthePetroleumSocietyofCIM,Calgary, Canada, PaperNo. 82–33–100
(1982).
Schowalter, W.R., Stability criteria for miscible misplacement of fluid from a porous medium. AIChE J.
11, 99 (1965).
Sherwood, J.D., and Nittmann, J., Gradient-governed growth: the effect of viscosity ratio on stochastoic
simulation of Saffman-Taylor instability. J. Physique 47, 125 (1986).
Siddiqui, H., and Sahimi, M., Computer simulation of miscible displacement processes in disordered
porous media. Chem. Eng. Sci. 45, 163 (1990a).
Siddiqui, H., and Sahimi, M., A statistical model for simulating miscible viscous fingers in porous media
and other growth phenomena. J. Phys. A 23, L497 (1990b).
Slobod, R.L., and Thomas, R.A., Effect of transverse diffusion on fingering in miscible displacement. SPE
464 (1963).
Smith D.H., ed., Surfactant-Based Mobility Control: Progress in Miscible Flood Enhanced Oil Recovery,
(American Chemical Society, Washington, DC, 1988).
Sorbie, K.S., Feghi, F., Pickup, G.E., Ringrose, P.S., and Jensen, J.L., Flow regimes in miscible
displacements in heterogeneous correlated random fields. SPE Advanced Technology Series (April
1994), 78.
Sorbie, K.S., Zhang, H.R., and Tsibuklis, N.B., Linear viscous fingering: new experimental results, direct
simulation and the evaluation of averaged models. Chem. Eng. Sci. 50, 601 (1995).
Stalkup, F.I., Miscible displacement. In, Henry L. Doherty Memorial, (Society of Petroleum Engineers,
Dallas, 1983).
Tan, C.T., and Homsy, G.M., Simulation of nonlinear viscous fingering in miscible displacement. Phys.
Fluids 31, 1330 (1988).
Taylor, S.R., Moltyaner, G.L., Howard, K.W.F., and Killey, R.W.D., A compression of the field and
laboratory methods for determining contaminant flow parameters. Ground Water 25, 321 (1987).
Tchelepi, H.A., and Orr, F.M., Dispersion, permeability heterogeneity, and viscous fingering: acoustic
experimental observations and particle-tracking simulations. Phys. Fluids A 5, 1558 (1993a).

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