Modeling CO₂ Removal with Hollow-Fiber Modules in COMSOL^®

Name: Modeling CO2 Removal with Hollow-Fiber Modules in COMSOL®
Uploaded: 2018-09-19 19:34:53
Duration: 58 min 51 s
Description: Learn about using COMSOL Multiphysics® to model carbon dioxide removal with hollow-fiber modules. Watch the archived webinar here.

Länge: 58:51

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Watch this archived webinar to learn about modeling carbon dioxide removal via hollow-fiber modules in the COMSOL Multiphysics^® software. Guest speaker Grigorios Panagakos from the Chemical Engineering Department at Carnegie Mellon University discusses defining the complex transport phenomena in a mathematical model and validating the simulation results for the velocity and concentration profiles with experimental data. In addition, he shows how you can use COMSOL Multiphysics^® to optimize a hollow-fiber module's geometry and operating conditions.

Tip: Browse for upcoming live webinars here.

Kapitelauswahl

Introduction (0:00) Agenda (2:18) Why Hollow Fiber-Motivation (3:06) Technology Problems to Address (3:43) Questions We Want to Answer (4:03) Stages of Model Development (4:26) Model Assumptions (4:55) Porous Support Properties (5:49) Physics (6:42) Mixture Viscosities (6:56) Boundary Conditions (7:28) Operating Conditions (8:07) Mesh (8:27) HFM Optimization (8:57) Hollow Fiber Module 3D Model-Geometrical Implementation (10:07) Hexagonal Pattern of Fibers With Varying Spacing (10:32) Live Demo (10:57) Results (40:44) How Multiphysics Simulation Can Boost Process Design (42:00) COMSOL Multiphysics^® (48:20) COMSOL Server™ (48:55) App Deployment (49:30) Q&A (50:15)