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REFERENCES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . I.Y. Padilla, T.C.J. Yeh, and M.H. Conklin. The effect of water content on solute transport in unsaturated porous media. Water Resources Research, 35(11):3303– 3313, 1999. 127, 129, 152 M. Pagitsas, A. Nadim, and H. Brenner. Multiple time scale analysis of macrotransport processes. Physica A: Statistical and Theoretical Physics, 135(2-3):533–550, 1986. 42 C. Pan, M. Hilpert, and C.T. Miller. Pore-scale modeling of saturated permeabilities in random sphere packings. Physical Review E, 64(6):66702, 2001. 68, 94 C. Pan, J.F. Prins, and C.T. Miller. A high-performance lattice boltzmann implementation to model flow in porous media. Computer Physics Communications, 158 (2):89–105, 2004. 68 C. Pan, L.S. Luo, and C.T. Miller. An evaluation of lattice boltzmann schemes for porous medium flow simulation. Computers and Fluids, 35(8-9):898–909, 2006. 68 L. Pang and M. Close. Field-scale physical non-equilibrium transport in an alluvial gravel aquifer. Journal of Contaminant Hydrology, 38(4):447–464, 1999a. 67 L. Pang, M. Close, D. Schneider, and G. Stanton. Effect of pore-water velocity on chemical nonequilibrium transport of cd, zn, and pb in alluvial gravel columns. Journal of contaminant hydrology, 57(3-4):241–258, 2002. 67 L. Paterson, S. Painter, X. Zhang, and V. Pinczewski. Simulating residual saturation and relative permeability in heterogeneous formations. In Society of Petroleum Engineers; Annual Technical Conference and Exhibition, 1996b. 20 T. Patzek. Verification of a complete pore network simulator of drainage and imbibition. Society of Petroleum Engineers, 2001. 98 T.W. Patzek and J.G. Kristensen. Shape factor correlations of hydraulic conductance in noncircular capillaries ii. two-phase creeping flow. Journal of Colloid and Interface Science, 236(2):305–317, 2001. 95, 105 G.G. Pereira. Numerical pore-scale modeling of three-phase fluid flow: Comparison between simulation and experiment. Physical Review E, 59(4):4229, 1999. 5 G.G. Pereira, W.V. Pinczewski, D.Y.C. Chan, L. Paterson, and P.E. Øren. Pore-scale network model for drainage-dominated three-phase flow in porous media. Transport in Porous media, 24(2):167–201, 1996. 20 E. Perfect and M.C. Sukop. 3 models relating solute dispersion to pore space geometry in saturated media: A review. 2001. 126 226
REFERENCES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . CJ Ptacek and RW Gillham. Laboratory and field measurements of non-equilibrium transport in the borden aquifer, ontario, canada. Journal of contaminant hydrology, 10(2):119–158, 1992. 67 M. Quintard and S. Whitaker. Aerosol filtration: an analysis using the method of volume averaging. Journal of Aerosol Science, 26(8):1227–1255, 1995. 42 H. Rajaram. Time and scale dependent effective retardation factors in heterogeneous aquifers. Advances in Water Resources, 20(4):217–230, 1997. 70 H. Rajaram, L.A. Ferrand, and M.A. Celia. Prediction of relative permeabilities for unconsolidated soils using pore-scale network models. Water Resources Research, 33(1). 95 D.S. Raje and V. Kapoor. Experimental study of bimolecular reaction kinetics in porous media. Environmental Science and Technology, 34(7):1234–1239, 2000. 42 P.S.C. Rao, R.E. Jessup, D.E. Rolston, J.M. Davidson, and D.P. Kilcrease. Experimental and mathematical description of nonadsorbed solute transfer by diffusion in spherical aggregates. Soil Science Society of America Journal, 44(4):684–687, 1980a. 161 P.S.C. Rao, D.E. Rolston, R.E. Jessup, and J.M. Davidson. Solute transport in aggregated porous media: Theoretical and experimental evaluation. Soil Science Society of America Journal, 44(6):1139–1146, 1980b. 161 A. Raoof and S.M. Hassanizadeh. Upscaling Transport of Adsorbing Solutes in Porous Media. Journal of Porous Media, 11(4), 2008. 95 A. Raoof and S.M. Hassanizadeh. A new method for generating pore-network models of porous media. Transport in Porous Media, pages 1–17, 2009. doi: 10.1007/ s11242-009-9412-3. 6, 7, 8, 68, 69, 71, 113, 205 A. Raoof and S.M. Hassanizadeh. Upscaling transport of adsorbing solutes in porous media. Journal of Porous Media, 13(5):395–408, 2010a. 67, 69, 76, 82, 83, 87, 173 A. Raoof and S.M. Hassanizadeh. Upscaling transport of adsorbing solutes in porous media: Pore-network modeling. Vadose Zone Journal, Accepted for publication, 2010b. 93, 95, 99 A. Raoof and S.M. Hassanizadeh. A new formulation for pore-network modeling of two-phase flow. WRR, 2011a. 136, 139, 140 A. Raoof and S.M. Hassanizadeh. Dispersivity under partially-saturated conditions; pore-scale processes. 2011b. 172 227
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Reactive/Adsorptive Transport in (P
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text Reactive/Adsorptive Transport
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Promoter: Prof.dr.ir. S.M. Hassaniz
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My colleagues and other staff in th
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CONTENTS 2.2.3 Connection Matrix .
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CONTENTS 5.3.3 Regular hyperbolic p
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CONTENTS 8.3.1 Non-adsorptive solut
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LIST OF FIGURES 3.6 The relation be
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LIST OF FIGURES 6.5 Breakthrough cu
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LIST OF TABLES 2.1 Expressions for
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1. Introduction . . . . . . . . . .
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1. Introduction . . . . . . . . . .
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1. Introduction . . . . . . . . . .
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1. Introduction . . . . . . . . . .
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1. Introduction . . . . . . . . . .
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1. Introduction . . . . . . . . . .
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1. Introduction . . . . . . . . . .
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Part I Generation of Multi-Directio
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2. Generating MultiDirectional Pore
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Published as: Raoof, A. and Hassani
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3.1 Introduction . . . . . . . . .
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3.1 Introduction . . . . . . . . .
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3.2 Theoretical upscaling of adsorp
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3.3 Numerical upscaling of adsorbin
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3.4 Discussion of results . . . . .
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3.5 Conclusion . . . . . . . . . .
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4.1 Introduction . . . . . . . . .
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4.1 Introduction . . . . . . . . .
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4.2 Description of the Pore-Network
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4.3 Simulating flow and transport w
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4.3 Simulating flow and transport w
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4.4 Macro-scale adsorption coeffici
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4.5 Discussion . . . . . . . . . .
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4.5 Discussion . . . . . . . . . .
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4.6 Conclusions . . . . . . . . . .
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Raoof, A. and Hassanizadeh S. M.,
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5.1 Introduction . . . . . . . . .
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5.1 Introduction . . . . . . . . .
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5.2 Network Generation . . . . . .
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5.2 Network Generation . . . . . .
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5.3 Modeling flow in the network .
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5.4 Results . . . . . . . . . . . .
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5.4 Results . . . . . . . . . . . .
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5.4 Results . . . . . . . . . . . .
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5.4 Results . . . . . . . . . . . .
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5.4 Results . . . . . . . . . . . .
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5.4 Results . . . . . . . . . . . .
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5.5 Conclusion Our approach is also
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6. Dispersivity under Partially-Sat
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7. Adsorption under Partially-Satur
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Page 228 and 229: Appendix C average velocity: ṽ =
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Page 256 and 257: REFERENCES D.F. Yule and W.R. Gardn
Page 258: و ‏ه ‏د ‏ر ش ل ات
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