Stud.IP Uni Oldenburg
Universität Oldenburg
28.11.2021 00:18:45
phy647 - Future Power Supply Systems (Vollständige Modulbeschreibung)
Originalfassung Englisch PDF Download
Modulbezeichnung Future Power Supply Systems
Modulkürzel phy647
Kreditpunkte 6.0 KP
Workload 180 h
Attendance: 56 hrs, Self study: 124 hrs
Einrichtungsverzeichnis Institut für Physik
Verwendbarkeit des Moduls
  • Master Engineering Physics (Master) > Schwerpunkt: Renewable Energies
  • Master Postgraduate Programme Renewable Energy (Master) > Mastermodule
Zuständige Personen
Agert, Carsten (Prüfungsberechtigt)
Knowledge from module RE technology I, Mathematics
After successful completion of the module students should be able to - explain the management, power balancing and the provision of ancillary services within future electricity grid configurations with high shares of fluctuating and distributed generation - perform power system simulation with related software tools - describe different grid-designs, including mini- and microgrids - compare different markets for electricity (Futures' Market, Day-Ahead-Market, Intraday-Market, Balancing Power Market, Self-Consumption) and assess the suitability of these concepts for promoting the implementation of higher shares of fluctuating distributed power generation within the electricity grid. - explain the technical principles and resulting limiting factors of concepts and components required for power control within \Smart City", \Smart Grid", and \Smart Home" concepts
Future Power Supply Systems: - Technology and characteristics of conventional power plants based e. g. on coal, gas, and nuclear, - Fundamentals, structure, technologies and operation of (AC-) electricity grids (incl. balancing power, voltage management, etc.), - Fluctuating distributed generation: Characteristics and solutions on the transmission and distribution grid levels, incl. storage, vehicle-to-grid-concepts, smart inverters, heat pumps / CHP, etc, - Interactions between technology and economics: The different electricity markets (Futures Market, Day-Ahead-Market, Intraday-Market, Balancing Power Market, Self-Consumption) and their links to the physical world, - \Smart City", \Smart Grid", \Smart Home", - Mini- and Micro-Grids, - Energy scenarios and modelling, - Chemical energy carriers in the energy system: power-togas (e.g. methane) and power-to-liquids (e.g.methanol)
Future Power Supply Systems: Buchholz, B.M., Styczynski Z. (2014). Smart Grids - Fundamentals and Technologies in Electricity Networks. Springer Ed., Khartchenko, N. et al. (2013). Advanced Energy Systems, Second Edition (Energy Technology). CRC Press Inc. Hemami, A. (2015). Electricity and Electronics for Renewable Energy Technology: An Introduction (Power Electronics and Applications) CRC Press, Schlögl, R. (2013) Ed., Chemical Energy Storage, De Gruyter
Unterrichtssprache Englisch
Dauer in Semestern 1 Semester
Angebotsrhythmus Modul Sommersemester
Aufnahmekapazität Modul unbegrenzt
Modullevel / module level MM (Mastermodul / Master module)
Modulart / typ of module Wahlpflicht / Elective
Lehr-/Lernform / Teaching/Learning method Lecture and Seminar: 4 hrs/week
Vorkenntnisse / Previous knowledge
Prüfung Prüfungszeiten Prüfungsform
Report (presentation: 50 min, Term-paper: 5 pp.) or Exercises (8 Exercises). In addition, active participation is required. The criteria to fulfil the requirement of the active participation are announced at the beginning of the term.
Lehrveranstaltungsform Vorlesung
Angebotsrhythmus SoSe oder WiSe
Workload Präsenzzeit 56 h