Battery Design and Thermal Management
Batteries are widely used to power equipment in the aerospace and defense industries. The most commonly used technology is lithium-ion, which boasts a high energy density, long cycle life, and low rate of self-discharge. However, lithium-ion batteries are sensitive to temperature conditions, which can impact their performance. To ensure optimal performance and efficient thermal management, the use of modeling and simulation in the design process is crucial. Modeling and simulation are powerful tools that can help us understand and predict the behavior of battery systems while also reducing development time and costs.
COMSOL Multiphysics® and the Battery Design Module offer a range of capabilities for building detailed models of battery cells and packs, capturing phenomena such as electrochemistry, species transport, heat transfer, fluid flow, and structural mechanics. When combined with the Heat Transfer Module, users can access a unique environment for running thermal analyses of battery systems, accounting for heating due to activation losses, Joule heating, conjugate heat transfer, nonisothermal flow, and other coupled phenomena.
In this webinar, we will give an overview of the functionality that COMSOL Multiphysics® offers for battery design and thermal analysis. We will demonstrate these capabilities using models at both the battery cell and battery pack levels.
Register for Battery Design and Thermal Management
To register for the event, please create a new account or log into your existing account. You will need a COMSOL Access account to attend Battery Design and Thermal Management.
For registration questions or more information contact info-nl@comsol.com.
Webinar Details
Location:
Online
June 17, 2025 | 14:00 CEST (UTC+02:00)