| 1 - 21 |
Mixed Convection in a Ventilated Cavity Filled with a Triangular Porous Layer
Gibanov NS, Sheremet MA, Ismael MA, Chamkha AJ |
| 23 - 35 |
Voronoi Cell Finite Element Method for Fluid-Filled Materials
Zhang R, Guo R |
| 37 - 66 |
The Effect of Grain Size Distribution on Nonlinear Flow Behavior in Sandy Porous Media
van Lopik JH, Snoeijers R, van Dooren TCGW, Raoof A, Schotting RJ |
| 67 - 81 |
Study of Hydraulic Properties of Uncoated Paper: Image Analysis and Pore-Scale Modeling
Aslannejad H, Hassanizadeh SM |
| 83 - 100 |
The Evolution of Parameters During CBM Drainage in Different Regions
Chen YX, Xu J, Chu TX, Peng SJ, Zhang CL, Wang MY |
| 101 - 113 |
Darcy-Brinkman Flow in Narrow Crevices
Wang CY |
| 115 - 139 |
Study of Slip Flow in Unconventional Shale Rocks Using Lattice Boltzmann Method: Effects of Boundary Conditions and TMAC
Moghaddam RN, Jamiolahmady M |
| 141 - 165 |
Prediction of Effective Properties of Porous Carbon Electrodes from a Parametric 3D Random Morphological Model
Prill T, Jeulin D, Willot F, Balach J, Soldera F |
| 167 - 182 |
Thermal Non-equilibrium Natural Convection in a Square Enclosure with Heat-Generating Porous Layer on Inner Walls
Baytas AF, Baytas AC |
| 183 - 206 |
Capillary Heterogeneity Trapping and Crossflow in Layered Porous Media
Debbabi Y, Jackson MD, Hampson GJ, Salinas P |
| 207 - 225 |
Influence of Resolution of Rasterized Geometries on Porosity and Specific Surface Area Exemplified for Model Geometries of Porous Media
Heidig T, Zeiser T, Freund H |
| 227 - 238 |
Construction of Dual Pore 3-D Digital Cores with a Hybrid Method Combined with Physical Experiment Method and Numerical Reconstruction Method
Lin W, Li XZ, Yang ZM, Wang J, Xiong SC, Luo YT, Wu GM |
| 239 - 254 |
A Two-Layer Mathematical Model of Blood Flow in Porous Constricted Blood Vessels
Sharma BD, Yadav PK |
