An evaluation of lattice Boltzmann schemes for porous medium flow simulation C Pan, LS Luo, CT Miller Computers & fluids 35 (8-9), 898-909, 2006 | 905 | 2006 |
Dissolution of trapped nonaqueous phase liquids: Mass transfer characteristics CT Miller, MM Poirier-McNeil, AS Mayer Water Resources Research 26 (11), 2783-2796, 1990 | 769 | 1990 |
Lattice‐Boltzmann simulation of two‐phase flow in porous media C Pan, M Hilpert, CT Miller Water Resources Research 40 (1), 2004 | 568 | 2004 |
Pore-morphology-based simulation of drainage in totally wetting porous media M Hilpert, CT Miller Advances in water resources 24 (3-4), 243-255, 2001 | 468 | 2001 |
Multiphase flow and transport modeling in heterogeneous porous media: challenges and approaches CT Miller, G Christakos, PT Imhoff, JF McBride, JA Pedit, JA Trangenstein Advances in Water Resources 21 (2), 77-120, 1998 | 418 | 1998 |
Pore-scale investigation of viscous coupling effects for two-phase flow in porous media H Li, C Pan, CT Miller Physical Review E 72 (2), 026705, 2005 | 271 | 2005 |
Modelling the fate of oxidisable organic contaminants in groundwater DA Barry, H Prommer, CT Miller, P Engesgaard, A Brun, C Zheng Advances in Water Resources 25 (8-12), 945-983, 2002 | 240 | 2002 |
Introduction to the thermodynamically constrained averaging theory for porous medium systems WG Gray, CT Miller Springer, 2014 | 225 | 2014 |
Organic chemical movement over and through soil JB Weber, CT Miller Reactions and movement of organic chemicals in soils 22, 305-334, 1989 | 221 | 1989 |
Comprehensive comparison of pore-scale models for multiphase flow in porous media B Zhao, CW MacMinn, BK Primkulov, Y Chen, AJ Valocchi, J Zhao, ... Proceedings of the National Academy of Sciences 116 (28), 13799-13806, 2019 | 217 | 2019 |
Accurate and economical solution of the pressure-head form of Richards' equation by the method of lines MD Tocci, CT Kelley, CT Miller Advances in Water Resources 20 (1), 1-14, 1997 | 216 | 1997 |
Thermodynamically constrained averaging theory approach for modeling flow and transport phenomena in porous medium systems: 1. Motivation and overview WG Gray, CT Miller Advances in Water Resources 28 (2), 161-180, 2005 | 215* | 2005 |
Pore-scale modeling of saturated permeabilities in random sphere packings C Pan, M Hilpert, CT Miller Physical Review E 64 (6), 066702, 2001 | 202 | 2001 |
The influence of mass transfer characteristics and porous media heterogeneity on nonaqueous phase dissolution AS Mayer, CT Miller Water Resources Research 32 (6), 1551-1567, 1996 | 195 | 1996 |
Cosolvent-enhanced remediation of residual dense nonaqueous phase liquids: Experimental investigation PT Imhoff, SN Gleyzer, JF McBride, LA Vancho, I Okuda, CT Miller Environmental Science & Technology 29 (8), 1966-1976, 1995 | 185 | 1995 |
Robust solution of Richards' equation for nonuniform porous media CT Miller, GA Williams, CT Kelley, MD Tocci Water Resources Research 34 (10), 2599-2610, 1998 | 183 | 1998 |
The influence of porous medium characteristics and measurement scale on pore-scale distributions of residual nonaqueous-phase liquids AS Mayer, CT Miller Journal of contaminant hydrology 11 (3), 189-213, 1992 | 182 | 1992 |
Sorption of hydrophobic organic pollutants in saturated soil systems CT Miller, WJ Weber Jr Journal of Contaminant Hydrology 1 (1-2), 243-261, 1986 | 171 | 1986 |
Use of a reactive surface-diffusion model to describe apparent sorption-desorption hysteresis and abiotic degradation of lindane in a subsurface material CT Miller, JA Pedit Environmental science & technology 26 (7), 1417-1427, 1992 | 170 | 1992 |
A multiphase model for three-dimensional tumor growth G Sciume, S Shelton, WG Gray, CT Miller, F Hussain, M Ferrari, P Decuzzi, ... New journal of physics 15 (1), 015005, 2013 | 168 | 2013 |