Multiscale Simulation Approach for Battery Production Systems

Nonfiction, Science & Nature, Science, Physics, Energy, Technology, Manufacturing
Cover of the book Multiscale Simulation Approach for Battery Production Systems by Malte Schönemann, Springer International Publishing
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Author: Malte Schönemann ISBN: 9783319493671
Publisher: Springer International Publishing Publication: January 5, 2017
Imprint: Springer Language: English
Author: Malte Schönemann
ISBN: 9783319493671
Publisher: Springer International Publishing
Publication: January 5, 2017
Imprint: Springer
Language: English

Addressing the challenge of improving battery quality while reducing high costs and environmental impacts of the production, this book presents a multiscale simulation approach for battery production systems along with a software environment and an application procedure.

Battery systems are among the most important technologies of the 21st century since they are enablers for the market success of electric vehicles and stationary energy storage solutions. However, the performance of batteries so far has limited possible applications. Addressing this challenge requires an interdisciplinary understanding of dynamic cause-effect relationships between processes, equipment, materials, and environmental conditions.

The approach in this book supports the integrated evaluation of improvement measures and is usable for different planning horizons. It is applied to an exemplary battery cell production and module assembly in order to demonstrate the effectiveness and potential benefits of the simulation.

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Addressing the challenge of improving battery quality while reducing high costs and environmental impacts of the production, this book presents a multiscale simulation approach for battery production systems along with a software environment and an application procedure.

Battery systems are among the most important technologies of the 21st century since they are enablers for the market success of electric vehicles and stationary energy storage solutions. However, the performance of batteries so far has limited possible applications. Addressing this challenge requires an interdisciplinary understanding of dynamic cause-effect relationships between processes, equipment, materials, and environmental conditions.

The approach in this book supports the integrated evaluation of improvement measures and is usable for different planning horizons. It is applied to an exemplary battery cell production and module assembly in order to demonstrate the effectiveness and potential benefits of the simulation.

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