Battery Design Simulation for Innovation

Engineers researching and developing battery system designs benefit from incorporating the COMSOL Multiphysics®simulation software into their workflow.

Introducing COMSOL Multiphysics®for Battery Design

Real-World Battery Design Examples

The COMSOL Multiphysics®software features a consistent user experience, regardless of engineering application and physics phenomena. By adding the Battery Design Module, engineers can understand, design, and optimize battery systems.

Developing New Battery Designs

P3D model of an SSFB shown in red, white, and yellow.

The Flemish Institute for Technical Research and KU Leuven developed a pseudo 3D model to study the flow-rate behavior of an SSFB.

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Minimizing Dendrites

Dendrite growth modeled in black, teal, and lime green.

Murata Manufacturing Co., Ltd., uses multiphysics simulation to minimize dendrites in lithium-ion batteries to improve battery life by more than 3x.

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Optimizing Battery Management Systems

Temperature distribution in a battery cell.

Exicom uses multiphysics simulation to understand the thermal behavior of battery cell and pack designs.

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Transforming E-Mobility

A cylindrical cell model of a battery.

Echion Technologies uses simulation to develop fast-charging batteries for use in electric vehicles.

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Diagnosing State of Health

A closeup view of the discharge process in a lithium-ion battery.

The National Physical Laboratory in the U.K. uses simulation to assess aged lithium-ion batteries for reuse.

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Improving the Battery R&D Process

3D heterogeneous electrode model in the Rainbow color table.

By adding modeling and simulation to your battery R&D process, you can predict, design, optimize, and control battery systems more efficiently.

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