Simulating Membrane Separation in COMSOL Multiphysics^®

Name: Simulating Membrane Separation in COMSOL Multiphysics®
Uploaded: 2019-01-16 16:44:16
Duration: 40 min 37 s
Description: Learn how to model membrane dialysis in COMSOL Multiphysics®. Watch the archived webinar here.

Durée: 40:37

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In this archived webinar, originally hosted by the American Institute of Chemical Engineers (AIChE), learn how to model transport phenomena and homogeneous reactions when simulating membrane dialysis in the COMSOL Multiphysics^® software. We discuss the reactions of solutes at membrane surfaces as well as their transport through membranes, built-in models for simulating membrane separation, and how to use COMSOL Multiphysics^® for studying membrane dialysis.

To learn more about modeling membrane separation, contact COMSOL for a software evaluation.

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Introduction (0:00) Mass, Energy, Momentum, and Reactions (1:04) The Chemical Reaction Engineering Interfaces (2:14) The Chemical Reaction Engineering Module (2:52) Membrane Model (6:09) Model Representation: Hollow Fiber (6:16) Example With Two Membrane Layers (6:49) Model Definition (16:33) Boundary Conditions (9:20) Results (11:48) Implementation in COMSOL (18:21) Results of Time-Dependent Study (21:09) 3D Extension, Membrane Tubing (24:22) Membrane Model Concluding Remarks (25:54) Electrodialysis (27:11) Model Definition, the Electrodialysis Stack (28:51) Model Definition, the Model Geometry (29:43) Model Definition, a First Approximation (31:50) Model Definition, Equations (32:50) Model Definition, Boundary Conditions (34:17) Model Results: Na+ Concentration (35:51) Model Results: Cl- Concentration (36:49) Model Results, Cross Section along the Middle of the Cell (37:52) Electrodialysis Concluding Remarks (39:07)