參考文獻 |
Assouline, S., Or, D., 2006. Anisotropy factor of saturated and unsaturated soils. Water
Resources Research, 42: W12403.
Békri, S., Thovert, J.F., Adler, P.M., 1995. Dissolution of porous media. Chemical Engineering
Science, 50(17): 2765-2791.
Chadam, J., Hoff, D., Merino, E., Ortoleva, P., Sen, A., 1986. Reactive infiltration instabilities.
IMA Journal of Applied Mathematics, 36(3): 207-221.
Chadam, J., Ortoleva, P., 1990. Morphological instabilities in physico-chemical systems. Earth-
Science Reviews, 29(1-4): 175-181.
Chadam, J., Ortoleva, P., Qin, P., Stamicar, R., 2001. The effect of hydrodynamic dispersion on
reactive flows in porous media. European Journal of Applied Mathematics, 12(5): 557-
569
Chadam, J., Ortoleva, P., Sen, A., 1988. A weakly nonlinear stability analysis of the reactive
infiltration interface. SIAM Journal on Applied Mathematics, 48(6): 1362-1378.
Chen, J.S., Liu, C.W., 2002. Numerical simulation of the evolution of aquifer porosity and
species concentrations during reactive transport. Computers & Geosciences, 28(4): 485-
499.
Chen, J.S., Liu, C.W., 2004. Interaction of reactive fronts during transport in a homogeneous
porous medium with initial small non-uniformity. Journal of Contaminant Hydrology,
72(1-4): 47-66.
Chen, J.S., Liu, C.W., Lai, G.X., Ni, C.F., 2009. Effects of mechanical dispersion on the
morphological evolution of a chemical dissolution front in a fluid-saturated porous
medium. Journal of Hydrology, 373(1-2): 96-102.
Chen, W., Ortoleva, P., 1990. Reaction front fingering in carbonate-cemented sandstone. Earth-
Science Reviews, 29(1-4): 183-198.
51
Daccord, G., 1987. Chemical dissolution of a porous medium by a reactive fluid. Physical
Review Letters, 58(5): 497-482.
Fredd, N.C., Fogler, H.S., 1988. The kinetics of calcite dissolution in acetic acid solutions.
Chemical Engineering Science, 53(22): 3863-3874.
Freedman, V., Ibaraki, M., 2002. Effects of chemical reactions on density-dependent fluid flow:
on the numerical formulation and the development of instabilities Advances in Water
Resources, 25(4): 439-453.
Gaus, I., Azaroual, M., Czernichowski-Lauriol, I., 2005. Reactive transport modeling of the
impact of CO2 injection on the clayey cap rock at Sleipner (North Sea). Chemical Geology,
217: 319-337.
Hinch, E.J., Bhatt, B.S., 1990. Stability of an acid front moving through porous rock. Journal
of Fluid Mechanics, 212: 279-288.
Hoefner, M.L., Fogler, H.S., 1988. Pore evolution and channel formation during flow and
reaction in porous media. AIChE Journal, 34(1): 45-54.
Jacob, B., 1972. Dynamic of fluids in porous media. Elsevier, Amsterdam, pp. 764.
Kalia, N., Balakotaiah, V., 2007. Modeling and analysis of wormhole formation in reactive
dissolution of carbonate rocks. Chemical Engineering Science, 62(4): 919-928.
Kalia, N., Balakotaiah, V., 2009. Effect of medium heterogeneities on reactive dissolution of
carbonates. Chemical Engineering Science, 64(2): 376-390.
Kang, Q., Zhang, D., Chen, S., 2003. Simulation of dissolution and precipitation in porous
media. Journal of Geophysical Research, 108: 2505.
Koenig, R.A., Stubbs, P.B., 1986. Interference testing of a coalbed methane reservoir. The
unconventional gas technical symposium. Society of petroleum engineers, Texas, USA
paper 15225.
Lebron, I., Schaap, M.G., Suarez, D.L., 1999. Saturated hydraulic conductivity prediction from
52
microscopic pore geometry measurements and neural network analysis. Water Resources
Research, 35(10): 3149-3158.
Noiriel, C., Gouze, P., Bernard, D., 2004. Investigation of porosity and permeability effects
from microstructure changes during limestone dissolution. Geophysical Research Letters,
31: L24603.
Ortoleva, p., Chadam, J., Merino, E., Sen, A., 1987. Geochemical self-organization II: The
reactive-infiltration instability. American Journal of Science, 287: 1008-1040.
Ortoleva, P., Merino, E., Moore, C., Chadam, J., 1987. Geochemical self-organization I:
Reaction-transport feedbacks and modeling approach. American Journal of Science, 287:
979-1007.
Pape, H., Clauser, C., Iffland, J., 1999. Permeability prediction based on fractal pore-space
geometry. Geophysics, 64(5): 1447-1460.
Pruess, K., Oldenburg, C., Moridis, G., 1999. TOUGH2 user′s guide, version 2.0. Lawrence
Berkeley Laboratory Report LBL-43134. Berkeley, California.
Renard, F., Gratier, J.P., Ortoleva, P., Brosse, E., Bazin, B., 1998. Self-organization during
reactive fluid flow in a porous medium. Geophysical Research Letters, 25: 385-388.
Scheidegger, A.E., 1961. General theory of dispersion in porous media. Journal of Geophysical
Research, 66(10): 3273-3278.
Sherwood, J.D., 1987. Stability of a plane reaction front in a porous medium. Chemical
Engineering Science, 42(7): 1823-1829.
Steefel, C.I., Lasaga, A.C., 1990. The evolution of dissolution patterns: Permeability change
due to coupled flow and reaction. In chemical modeling of aqueous systems II (eds. D.
Melchior and R.L. Bassett), ACS symposium series No. 416, American Chemical Society,
Washington. 212-225.
Stewart, M.L., Ward, A.L., Rector, D.R., 2006. A study of pore geometry effects on anisotropy
53
in hydraulic permeability using the lattice-Boltzmann method. Advances in Water
Resources, 29(9): 1328-1340.
Szymczak, P., Ladd, A.J.C., 2009. Wormhole formation in dissolving fractures. Journal of
Geophysical Research, 114: B06203.
Szymczak, P., Ladd, A.J.C., 2011. Instabilities in the dissolution of a porous matrix.
Geophysical Reserach Letters, 38: L07403.
Vaughan, P.J., 1987. Analysis of permeability reduction during flow of heated, aqueous fluid
through westerly granite. In Tsang, C.F. (Ed.), Coupled processes associated nuclear waste
repositories. Academic Press, New York. 529-539.
Verma, A., Pruess, K., 1988. Thermohydrologic conditions and silica redistribution near highlevel
nuclear wastes emplacedin saturated geological formations. Journal of Geophysical
Research, 93(B2): 1159-1173.
Weisbrod, N., Alon-Mordish, C., Konen, E., Yechieli, Y., 2012. Dynamic dissolution of halite
rock during flow of diluted saline solutions. Geophysical Reserach Letters, 39: L09404.
Witt, K.J., Brauns, J., 1983. Permeability ‐ anisotropy due to particle shape. Journal of
Geotechnical & Geoenvironmental Engineering 109(9): 1181-1187.
Wooding, R.A., 1978. Large-scale geothermal field parameters and convection theory. New
Zealand Journal of Science, 21: 219-228.
Xin, J., Peirce, A., Chadam, J., Ortoleva, P., 1993. Reactive flows in layered porous media II:
the shape stability of the reaction interface. SIAM Journal on Applied Mathematics, 53(2):
319 - 339
Zhao, C., Hobbs, B.E., Ord, A., 2010. Theoretical analyses of the effects of solute dispersion
on chemical-dissolution front instability in fluid-saturated porous media. Transport in
porous media, 84(3): 629-653.
Zhao, C., Hobbs, B.E., Ord, A., Horbbs, B.E., Peng, S., 2009. Effects of mineral dissolution
54
ratios on chemical-dissolution front instability in fluid-saturated porous media Transport
in Porous Media, 82(2): 317-335.
Zhao, C., Hobbs, B.E., Ord, A., Hornby, P., Peng, S., 2008b. Effect of reactive surface areas
associated with different particles shapes on chemical-dissolution front instability in fluidsaturated
porous medium. Transport in Porous Media, 73(1): 75-94.
Zhao, C., Hobbs, B.E., Ord, A., Hornby, P., Peng, S., 2008c. Morphological evolution of threedimensional
chemical dissolution front in fluid-saturated porous media: a numerical
simulation approach. Geofluids, 8(2): 113-127. |