Battery Technology
EE-K2-552
P242-0097
ee2
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V
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no
German
Written exam
EE-K2-552
Energy system technology / Renewable energies
0
optional course
FT64
Automotive Engineering
0
optional course
FT64
Automotive Engineering
0
optional course
30 class hours (= 22.5 clock hours) over a 15-week period.The total student study time is 60 hours (equivalent to 2 ECTS credits).There are therefore 37.5 hours available for class preparation and follow-up work and exam preparation.
Prof. Dr. Hans-Werner Groh
hwg
Prof. Dr. Hans-Werner Groh
hwg
Competencies - After successfully completing this course, students will be familiar with:
- the functionality of different battery technologies,
- methods for the characterization and parameterization of energy storage systems,
- physical and (electro)chemical transport processes and interaction mechanisms in battery storage,
- strategies and techniques of (macroscopic) battery storage modeling
- functionality of BMS
- battery emulation and HiL method
- Depending on interests: basic mathematical methods for solving differential equations (finite differences and LU decomposition)
1. Basics:
- Function and application of different battery technologies
- Basic energy storage concepts
- Characteristic parameters and methods for the parameterization of energy storage devices (e.g.: Basic concepts of energy storage devices)
2. Modeling:
- Overview of modeling approaches
- Fundamentals of thermodynamics with a focus on energy storage
- Modeling transport processes (continuity equation mass, charge, energy) and interactions (Butler-Volmer equation and double layer) mathematically using the example of the lithium-ion battery
3. Battery management systems (BMS):
- Control and monitoring of battery systems with a battery management system
- Determining the condition of energy storage devices
- The aging of energy storage devices
4. Battery emulation:
- Using the simulation software in Hardware-in-the-Loop (HiL) processes
- Modeling approaches and real-time requirements
- Bus systems and communication
5. ISET-LIB:
- Introduction to and application of the electrochemical simulation software ISET-LIB
- Practical application of electrochemical modeling with examples
- Interpretation of the results based on knowledge about the transport processes, interactions and functionality of the energy storage
Thu Mar 28 21:50:30 CET 2024, CKEY=fbc, BKEY=ee2, CID=[?], LANGUAGE=en, DATE=28.03.2024