| 289 - 306 |
Investigation of Groundwater Contaminant Discharge into Tidally influenced Surface-water Bodies: Theoretical Analysis
Chen H, Pinder GF |
| 307 - 321 |
Investigation of Groundwater Contaminant Discharge into Tidally Influenced Surface-Water Bodies: Experimental Results
Chen H, Pinder GF |
| 323 - 336 |
Hydrodynamic Characterization of Nickel Metal Foam, Part 2: Effects of Pore Structure and Permeability
Miwa S, Revankar ST |
| 337 - 355 |
Investigation on Heat and Mass Transfer in a Evaporator of a Capillary-Pumped Loop with the Lattice Boltzmann Method: Pore Scale Simulation
Xuan YM, Zhao K, Li Q |
| 357 - 382 |
Network Modeling of EOR Processes: A Combined Invasion Percolation and Dynamic Model for Mobilization of Trapped Oil
Bolandtaba SF, Skauge A |
| 383 - 397 |
Pressure Buildup During CO2 Injection into a Closed Brine Aquifer
Mathias SA, de Miguel GJGM, Thatcher KE, Zimmerman RW |
| 399 - 419 |
A Continuous-Discontinuous Approach to Simulate Heat Transfer in Fractured Media
Moonen P, Sluys LJ, Carmeliet J |
| 421 - 440 |
Control of Flow and Heat Transfer in a Porous Enclosure due to an Adiabatic Thin fin on the Hot Wall
Sathiyamoorthy M, Narasimman S |
| 441 - 457 |
Fluid Flow Induced Internal Erosion within Porous Media: Modelling of the No Erosion Filter Test Experiment
Frishfelds V, Hellstrom JGI, Lundstrom TS, Mattsson H |
| 459 - 473 |
Dependence of Pore-to-Core Up-scaled Reaction Rate on Flow Rate in Porous Media
Kim D, Lindquist WB |
| 475 - 486 |
Poroelasticity-II: On the Equilibrium State of the Fluid-Filled Penetrable Poroelastic Body
Lopatnikov SL, Gillespie JW |
| 487 - 504 |
Modeling Chemotactic Waves in Saturated Porous Media using Adaptive Mesh Refinement
Ward ND, Falle S, Olson MS |
| 505 - 532 |
Gas Condensate Flow Around Hydraulically Fractured Wells
Mahdiyar H, Jamiolahmady M, Sohrabi M |
| 533 - 545 |
Prediction of Microscopic Remaining Oil Distribution Using Fuzzy Comprehensive Evaluation
Hou J, Zhang SK, Zhang YH, Wang RR, Luo FQ |
