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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Energiewirtschaft

Lehrform Vorlesung
Lernziele / Kompetenzen

The students know and apply the common terminology in the energy sector. They know and understand the structure of an energy sector by example of Germany and are able to access systematically the structures of other energy markets. The students know how to access data in the energy sector; they are acquainted to statistical methods allowing critical analysis of data.

The students got the background to judge the impact of actual developments in industry, politics, legacy etc. on the energy sector.

The students know how to gain information and data required for techno-economic analyses of energy projects. They are able to perform cost calculation and investment appraisal studies. By applying computer tools they are able to perform extensive sensitivity analyses.  

Dauer 1
SWS 4.0
Aufwand
Lehrveranstaltung 60
Selbststudium / Gruppenarbeit: 60
Workload 120
ECTS 4.0
Voraussetzungen für die Vergabe von LP

Klausurarbeit, 90 Min.
Leistungspunkte Noten

4 ECTS
Modulverantwortlicher

Prof. Dr.-Ing. Niklas Hartmann
Haeufigkeit jedes Jahr (WS)
Verwendbarkeit

Master RED
Veranstaltungen

Energy Economics

Art Vorlesung/Übung
Nr. M+V3037
SWS 4.0
Lerninhalt
  • Terminology in the energy sector
  • Primary energy resources (conventional and renewable) and energy conversion chains
  • Environment protection (impact of exploitation, transport and conversion on environment, environment protection and international law)
  • Structure of the energy sector (government agencies, organisations, industry, etc. involved and their role; Regulations in the energy sector by example of Germany and Europe; Liberalisation in the energy market; regulation of grid-bound energy sector)
  • Cost calculation; Learning Curves; Investment appraisal Methods
  • Energy demand and energy systems (sectors; daily, weekly and seasonal load profiles; electricity market and heat market; district heating; cogeneration)
  • Electrical supply (example Germany, Europe; power plant fleet; virtual power plants; base load, middle load, peak load; decentralised energy supply; grid topology; grid operation; quality and reliability of grid operation)
Literatur
  • Bhattacharyya, S.C.: Energy Economics: Concepts, Issues, Markets and Governance, Springer, London, 2019
  • Erdmann, G.; Zweifel, P.: Energieökonomik – Theorie und Anwendungen, Springer, Berlin / Heidelberg, 2022
  • Konstantin, P.: Praxisbuch Energiewirtschaft. Energieumwandlung, -transport und -beschaffung im liberalisierten Markt, 4th edition, Springer, Berlin, 2017
  • Narbel, P. A., J. P. Hansen, J. R. Lien.: Energy Technologies and Economics, Springer, 2014
  • Ströbele, W.; Pfaffenberger, W.; Heuterkes, M.: Energiewirtschaft – Einführung in Theorie und Politik, 3rd edition, Oldenbourg, Munich, 2012
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