Chemical Reaction Engineering Blog Posts
Analyzing Fine Chemical Production in Plate Reactors
Batch reactors, continuous reactors, plate reactors, oh my. Here, we discuss analyzing the fine chemical production process in a plate reactor using chemical modeling.
Keynote Video: Moving Beyond Simulation for Biopharma Applications
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®
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
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
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.
How to Model Wet Chemical Etching in COMSOL Multiphysics®
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
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®
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®
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®
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®
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
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
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
We discuss treating renal failure with hemodialysis, analyzing contaminant concentration in a membrane dialysis device, and optimizing a membrane dialysis device with a numerical modeling app.
Designing Effective Transdermal Drug Delivery Patches with Simulation
Transdermal drug delivery (TDD) patches are more effective and convenient than traditional drug delivery methods. See how Veryst Engineering simulated the diffusion process in a TDD patch.
Studying the Migration of Mineral Oil Hydrocarbons in Food Packaging
Food packaging can contain hazardous mineral oils. To analyze the migration patterns of mineral oil hydrocarbons for various food packaging scenarios, German researchers used COMSOL Multiphysics®.
Analyze a Vacuum Dryer’s Speed with Multiphysics Modeling
Vacuum drying is often used to dry heat-sensitive materials such as food and pharmaceuticals. Here, we showcase a model that simulates the vacuum drying of a wet cake.
Model Methane HCCI Combustion to Optimize Engine Ignition Control
Environmental demands have sparked an interest in finding an alternative to traditional spark- and compression-ignition engines. One of the suggested alternatives is HCCI engines.
New Reacting Flow Multiphysics Interface Delivers Greater Flexibility
Get an introduction to the Reacting Flow interface, which can be used to simulate fluid flow and reactions in gases and liquids in COMSOL Multiphysics®.
Studying Bioreactor Landfills to Solve a Growing Trash Problem
How are researchers using heat transfer and chemical reaction simulations to help solve the world’s growing trash problem? Get the details here.
Analyzing the Dissociation Process in a Tubular Reactor
To accurately analyze tubular reactor designs, chemical engineers can model the dissociation process. But is it better to use a isothermal or nonisothermal simulation to do so?
Protein Adsorption: Batch and Space-Dependent Modeling
We take you step by step through developing a detailed protein adsorption reactor model. We start with a simple, perfectly mixed batch reactor and move onto space-dependent modeling.
Using Simulation in the Race Against Corrosion
A German research institute and a well-known car manufacturer joined forces to investigate the corrosion occurring in automotive rivets and sheet metal. Get the full story.
Sensing the Bio in Biosensor Design with a Simulation App
The Biosensor Design demo app predicts the results from measurements of a biomolecule’s concentration (or activity) from an understanding of this molecule’s attachment to an enzyme.