Modeling Porous Media Flow in COMSOL Multiphysics®
Länge: 47:18
See how to model porous media flow in COMSOL Multiphysics® in this archived webinar.
Learn several different approaches for simulating various types of flow through porous media. The video focuses on homogeneous approaches, like Darcy’s law for slow flow and the Brinkman equations for faster flow. In addition, we will discuss how to model multiphase flows.
Browse for upcoming live webinars here.
Kapitelauswahl
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)