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Chemical Reaction Engineering Blog Posts

Modeling Surface Reactions in Porous Media and Reactive Pellet Beds

October 10, 2017

Reactive pellet beds have complex local geometries and undergo microscopic diffusion, but there is a way to simply and accurately simulate these devices in COMSOL Multiphysics®.

Simulating Cancer Cell Migration in Microgravity with COMSOL®

August 16, 2017

Researchers used multiphysics simulation to determine how microgravity effects the migration of metastatic cancer cells. Their results could have new implications for therapy and treatments.

Studying Zone Electrophoresis with COMSOL Multiphysics®

August 15, 2017

Zone electrophoresis enables scientists to study nucleic acids, biopolymers, and proteins in a wide range of areas. COMSOL Multiphysics® can be used to take a closer look at this process.

Introduction to Modeling Surface Reactions in COMSOL Multiphysics®

July 13, 2017

Bioengineers and electrochemists will appreciate this detailed introduction to modeling surface reactions with the COMSOL® software.

How to Model Heat and Moisture Transport in Porous Media with COMSOL®

June 14, 2017

Modeling the transport of heat and moisture in porous media, like building envelopes and other construction materials, is a simple process with a predefined Heat and Moisture Transport interface.

Analyzing Heat and Mass Transfer During Cake Baking with Simulation

April 26, 2017

As you bake a cake, there are many complex heat and mass transport processes taking place behind the oven door. Take a closer look at the art and science involved in the cake baking process…

Modeling the Performance of an Evaporative Emission Control System

January 13, 2017

Researchers turned to COMSOL Multiphysics to model the adsorption and desorption in an evaporative emissions control system for enhanced automotive efficiency.

Study Contaminant Removal in Membrane Dialysis Devices with an App

December 15, 2016

For patients with renal failure, efficient dialysis treatment is vital. One point of focus is designing high-performance dialysis equipment that increases contaminant removal, improving treatments like hemodialysis. To accomplish this, you can study aspects of the hemodialysis process, such as membrane dialysis devices, with numerical modeling apps. These apps, like the one discussed here, enable users to more quickly analyze the effects of different inputs and improve designs.


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