M. Sc. Renewable Energy and Data Engineering

Studieren Sie konventionelle und erneuerbare Energiesysteme, intelligente Stromnetze und die zugrundeliegenden Algorithmen sowie Energieeffizienzmaßnahmen.
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Fakultät EMI

Modulhandbuch

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Energy Storage, Conversion and Transport

Teaching methods Lecture
Learning target / Competences

The students are familiar with various types of electrical and thermal energy conversion and storage technology. They have a specifically high understanding of lithium-ion batteries, polymer electrolyte membrane fuel cells, and alkaline electrolyzers. On the fundamental level, they know the thermodynamic and kinetic working principles of electrochemical cells. On the technology level, the students know the setup and design principles of different systems, including their properties in terms of efficiency and durability. On the application level, the students are aware of applicability, requirements, and potential of different energy storage and transport systems. They have an insight into the economic status of energy storage technologies and understand the future trends in research and development.

Duration 1
Hours per week 4.0
Overview
Classes 60
Individual / Group work: 60
Workload 120
ECTS 4.0
Requirements for awarding credit points

written exam 90 minutes
Credits and grades

4 ECTS
Responsible person

Prof. Dr. rer. nat. habil. Wolfgang Bessler
Frequency Annually (ws)
Usability

Master RED
Lectures

Energy Storage, Conversion and Transport

Type Lecture/tutorial/lab
Nr. M+V3047
Hours per week 4.0
Content

A. Introduction and history

B. Energy storage in batteries

C. Energy conversion in fuel cells and electrolyzers

D. Stationary applications

E. Mobile applications

 
Literature
  • Wolfgang Bessler, Lecture notes
  • Reiner Korthauer, Lithium-ion batteries: Basics and applications, Springer 2018
  • Ryan O'Hayre, Suk-Won Cha, Whitney Colella, Fritz B. Prinz, Fuel cell fundamentals, Wiley 2016
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