Blog Posts Tagged Battery Design Module
Minimizing the Charging Time of a Battery
This blog post investigates the relationship between charging time and battery longevity for a lithium-ion battery using the Optimization Module in COMSOL Multiphysics.
Optimizing Battery Pack Lifetime Using Simulation-Aided Design
Simulation-aided design offers a new method for lifetime predictions of battery systems. A guest blog author showcases how COMSOL Multiphysics makes this innovative method possible.
Modeling a Solid-State Battery Cell in COMSOL Multiphysics®
Solid-state batteries offer advantages over lithium-ion batteries, making them promising technology for electric vehicles. Simulation can help battery developers investigate design challenges.
Modeling Nonidealities in Electrochemical Impedance Spectroscopy
In this blog post, we explore how to model nonidealities in electrochemical impedance spectroscopy (EIS), often used in the study of electrochemical systems.
The Effects of Varying Solvent Compositions on Lithium-Ion Battery Aging
As lithium-ion batteries age, parasitic reactions can affect the ratio of solvents in the electrolytes. Learn how the consumption of one solvent can impact battery performance.
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.
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.
Analyzing Thermal Distribution in a Li-Ion Battery Pack
Deviating from optimal operating temperatures in a Li-ion battery pack can cause performance losses or even failure. Learn how to optimize the power design to control the temperature distribution.
