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Determination of capillary pressure function from resistivity data
Li KW, Williams W |
| 17 - 29 |
Thermal analysis of natural convection porous fins
Kiwan S |
| 31 - 48 |
Using the sequential self-calibration method and genetic algorithm method to optimally design tracer test to estimate conductivity distribution
He CM, Hu BX |
| 49 - 67 |
Effect of the source term on steady free convection boundary layer flows over an vertical plate in a porous medium. Part I
Magyari E, Pop I, Postelnicu A |
| 69 - 91 |
Consolidation statistics investigation via thin layer method analysis
Badaoui M, Nour A, Slimani A, Berrah MK |
| 93 - 113 |
Analysis of wet pressing of paper: the three-phase model. Part I: constant air density
Bezanovic D, van Duijn CJ, Kaasschieter EF |
| 115 - 133 |
Forward and inverse modeling of near-well flow using discrete edge-based vector potentials
Zijl W |
| 135 - 164 |
A stochastic model for filtration of particulate suspensions with incomplete pore plugging
Shapiro AA, Bedrikovetsky PG, Santos A, Medvedev OO |
| 165 - 167 |
Comments on'forced convection with slip-flow in a channel or duct occupied by a hyper-porous medium saturated by a rarefied gas', Transport in Porous Media, 64, 161-170, 2006
Al-Nimr MA, Haddad OM |
| 169 - 170 |
Reply to comments on'Forced convection with slip-flow in a channel or duct occupied by a hyper-porous medium saturated by a rarefied gas'
Nield DA, Kuznetsov AV |
