Modeling Porous Media Flow in COMSOL Multiphysics^®

Introduction (0:00) Agenda (2:00) COMSOL Multiphysics^® (2:54) Porous Media Are Everywhere (5:58) What is a Porous Medium? (6:43) Flow in Porous Media (8:15) How to Simulate Porous Media (9:19) Homogenization: A More Economical Approach (10:45) Convection in Porous Media (12:12) Porous Media Flow Interfaces (13:23) Porous Media Flow: Differences Between Models (15:04) Darcy’s Law and Non-Darcian Models (16:36) Darcy’s Law: Storage (18:55) Fracture Flow (19:42) Brinkman Equations (20:22) Flow in Variably Saturated Porous Media (21:27) Richards’ Equation (22:30) Multiphase Flow in Porous Media (23:37) Fully Resolved Multiphase Flow (24:28) Porous Media Flow Module and Subsurface Flow Module (25:53) Ambient Properties (27:42) Live Demonstration: Forchheimer Drag (28:17) Transport in Diluted Solutions (38:51) Transport in Multicomponent Solutions (39:23) Transport of Diluted Species (39:40) Transport of Diluted Species in Porous Media (39:58) Transport of Diluted Species in Fractures (40:52) Heat Transfer in Porous Media (40:56) Local Thermal Nonequilibrium (41:08) Phase Change in Porous Media (41:29) Poroelasticity (41:45) Q&A (42:10) Further Resources (46:12)