Abstract | The course provides an introduction to the principles and applications of electrochemical energy conversion (e.g. fuel cells) and storage (e.g. batteries) technologies in the broader context of a renewable energy system. |
Learning objective | Students will discover the importance of electrochemical energy conversion and storage in energy systems of today and the future, specifically in the framework of renewable energy scenarios. Basics and key features of electrochemical devices will be discussed, and applications in the context of the overall energy system will be highlighted with focus on future mobility technologies and grid-scale energy storage. Finally, the role of (electro)chemical processes in power-to-X and deep decarbonization concepts will be elaborated. |
Content | Overview of energy utilization: past, present and future, globally and locally; today’s and future challenges for the energy system; climate changes; renewable energy scenarios; introduction to electrochemistry; electrochemical devices, basics and their applications: batteries, fuel cells, electrolyzers, flow batteries, supercapacitors, chemical energy carriers: hydrogen & synthetic natural gas; electromobility; grid-scale energy storage, power-to-gas, power-to-X and deep decarbonization, techno-economics and life cycle analysis. |
Lecture notes | all lecture materials will be available for download on the course website. |
Literature | - M. Sterner, I. Stadler (Eds.): Handbook of Energy Storage (Springer, 2019). - C.H. Hamann, A. Hamnett, W. Vielstich; Electrochemistry, Wiley-VCH (2007). - T.F. Fuller, J.N. Harb: Electrochemical Engineering, Wiley (2018) |
Prerequisites / Notice | Basic physical chemistry background required, prior knowledge of electrochemistry basics desired. |