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Chemical Blog Posts

Keynote Video: Moving Beyond Simulation for Biopharma Applications

March 21, 2018

At Amgen, researchers build simulation applications for biopharmaceutical uses, such as researching biological and synthetic drugs. Learn more in this blog post featuring their keynote talk.

Modeling Adsorption at Surfaces in COMSOL Multiphysics®

January 26, 2018

What is adsorption? Learn the theory behind this chemical engineering phenomenon as well as how to model the process at surfaces in the COMSOL® software.

Evaluating the Performance of a Steam Reformer with Simulation

January 5, 2018

To design a steam reformer for hydrogen production, you need to couple mass, energy, and flow equations. The Chemical Reaction Engineering Module can account for this true multiphysics problem.

Calculating Thermodynamic Properties for Liquids and Gases

December 26, 2017

The Chemical Reaction Engineering Module includes a built-in database of over a dozen thermodynamic properties, making it easier to set up your transport and reaction models. Details here.

Advancing Vanadium Redox Flow Batteries with Modeling

December 21, 2017

The chemical energy in vanadium redox flow batteries is contained in liquid electrolytes and stored in external tanks. They can be used to improve grid energy storage and renewable energy.

How to Model Wet Chemical Etching in COMSOL Multiphysics®

November 27, 2017

Wet chemical etching was one of Rembrandt’s favorite methods for creating self-portraits. Now, it’s used by engineers to produce integrated circuits, MEMS devices, and pressure sensors.

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®.

Pulsed Electrochemical Machining: A Multiphysics Model

September 5, 2017

Industries that manufacture metal parts are concerned with precision machining and quality of surface finish. Optimizing the pulsed electrochemical machining process can improve these factors.


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