Module catalogue 2023/2024
| 569-3 | Energy storage | Materials and Chemistry | S7 | ||||||
|---|---|---|---|---|---|---|---|---|---|
| Lessons : 14 h | TD : 7 h | TP : 12 h | Project : 0 h | Total : 33 h | |||||
| Co-ordinator : Jean-Michel Rueff | |||||||||
| Prerequisite | |
|---|---|
| Electrochemistry | |
| Course Objectives | |
| The objective of the course is to give a general idea of the concepts related to the storage of energy and the different means available. Special attention will be given to batteries and supercapacitors for which the different mechanisms and the main systems marketed or under exploration will be analyzed in more detail. |
|
| Syllabus | |
| 1. Introduction: Context 2. Physical and thermal storage: Energy storage by pumping Compressed air storage Storage by flywheel Magnetic induction storage Solar thermal storage Latent heat storage 3. Electrochemical storage: Introduction and recall of electrochemistry Lead accumulators Nickel accumulators (Ni-Cd, Ni-MeH) Lithium accumulators (L-ion, Li-S, Li-air) Acumulators for network application: - Na-S - Zebra (Na-NiCl2) - Metal liquid batteries - Redox flow Storage application for electrical network Micro batteries Supercapacitors |
|
| Practical work (TD or TP) | |
| Energy storage for electrical production | |
| Acquired skills | |
| Bibliography | |
| Handbook of batteries, David Linden, Thomas B. Reddy, McGraw-Hill, 2004. Advanced Batteries, Robert A. Huggins, Springer Science, 2009. |
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