Description
Electrochemical Power Sources: Fundamentals, Systems, and Applications: Simulation Models of Secondary Batteries: From Quantum Physics to Techno-economic Scale gives an overview of the different modeling approaches for battery simulation models used for different purposes, such as battery pack design or state of charge estimation. Solutions for different applications are presented, and a classification into electrical, thermal, aging models is given, along with degree of precision ranging from physico-chemical, over impedance based to energy flow or empirical models with their specific advantages and disadvantages.In applications such as a vehicle energy management, it is important to know the state of the battery, e.g., what is the remaining driving range or when should the battery be replaced.- Overviews many different battery modeling approaches- Outlines how to choose the best model for a given purpose- Offers a complete range from particle to system model- Includes electrical, thermal, and aging models- Discusses limitations of modeling approaches
Table of Contents
1. Quantum physics models2. Physico chemical models3. Impedance based models4. Thermal models5. Ageing models6. Techno economic models7. Lithium-Ion battery models8. Lithium-sulfur battery models9. Lead-acid battery models10. Supercap models11. Metal-air battery models12. Redox Flow battery models13. High temperature battey models
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