Chemical Blog Posts
Modeling a Two-Phase Nonisothermal Zero-Gap Alkaline Water Electrolyzer
Modeling and simulation can help designers better understand alkaline water electrolyzers by providing insight into their various electrochemical and transport phenomena.
Better Brewing: Modeling Beer Fermentation
What’s brewing? Explore how modeling and simulation can be used to study the beer fermentation process, identifying ways to optimize its efficiency and serve up a better-tasting glass of suds.
Simulating Thermal Propagation in a Battery Pack
When batteries overheat, there’s more at stake than just losing the pack. By modeling thermal runaway, you can prevent problems before they arise.
Modeling Shunt Currents in an Alkaline Electrolyzer Stack
In the quest for affordable green hydrogen, alkaline electrolyzers must be efficient and long-lasting. Simulation offers insight during the design stage.
Thermochemical Conversion of Biomass Through Pyrolysis of Wood
Pyrolysis converts biomass into products such as solid charcoal, which can further be refined into hydrogen. Here, read about modeling pyrolysis with the help of parameter estimation.
How to Define Load Cycles in Battery Models
Specifying a load profile is critical when modeling a battery system. Explore several approaches for doing so in COMSOL Multiphysics® and the Battery Design Module.
4 Examples of Fuel Cell Modeling in COMSOL Multiphysics®
To evaluate the many different aspects of fuel cell design, you can use the Fuel Cell & Electrolyzer Module. Explore 4 examples here…
The Use of COMSOL Multiphysics® in the Food Industry
Food for thought: Explore how previously failed products and the use of multiphysics simulation inspire innovation in the food industry.