Course
SNEE - Electrical Power Grids for Renweable Energy
PDF Course Catalog Deutsche Version: SNEE
Version: 1 | Last Change: 13.09.2019 16:54 | Draft: 0 | Status: vom verantwortlichen Dozent freigegeben
| Long name | Electrical Power Grids for Renweable Energy |
|---|---|
| Approving CModule | SNEE_MaET |
| Responsible |
Prof. Dr. Eberhard Waffenschmidt
Professor Fakultät IME |
| Level | Master |
| Semester in the year | summer semester |
| Duration | Semester |
| Hours in self-study | 78 |
| ECTS | 5 |
| Professors |
Prof. Dr. Eberhard Waffenschmidt
Professor Fakultät IME |
| Requirements | Basics of electrical Engineering, especially alternating current calculations with complex numbers and three phase systems |
| Language | German, English if necessary |
| Separate final exam | No |
Literature
Klaus Heuck, Klaus-Dieter Dettmann, Detlef Schulz, "Elektrische Energieversorgung", 7. vollständig überarbeitete und erweiterte Auflage, Vieweg Verlag, Wiebaden, 2007. ISBN 978-3-8348-0217-0
Dieter Nelles, Christian Tuttas,"Elektrische Energietechnik", B.G. Teubner Verlag, Stuttgart, 1998, ISBN 3-519-06427-8
Valentin Crastan,"Elektrische Energieversorgung 1: Netzelemente, Modellierung, stationäres Verhalten, Bemessung, Schalt- und Schutztechnik", 2. bearbeitete Auflage, Springer Verlag, Berlin Heidelberg New York, 2007, ISBN 978-3-540-69439-7
„Erzeugungsanlagen am Niederspannungsnetz – Technische Mindestanforderungen für Anschluss und Parallelbetrieb von Erzeugungsanlagen am Niederspannungsnetz“, VDE-Anwendungsregel VDE-AR-N 4105, Aug. 2011, verbindlich gültig ab 1.1.2012.
Dieter Nelles, Christian Tuttas,"Elektrische Energietechnik", B.G. Teubner Verlag, Stuttgart, 1998, ISBN 3-519-06427-8
Valentin Crastan,"Elektrische Energieversorgung 1: Netzelemente, Modellierung, stationäres Verhalten, Bemessung, Schalt- und Schutztechnik", 2. bearbeitete Auflage, Springer Verlag, Berlin Heidelberg New York, 2007, ISBN 978-3-540-69439-7
„Erzeugungsanlagen am Niederspannungsnetz – Technische Mindestanforderungen für Anschluss und Parallelbetrieb von Erzeugungsanlagen am Niederspannungsnetz“, VDE-Anwendungsregel VDE-AR-N 4105, Aug. 2011, verbindlich gültig ab 1.1.2012.
Learning goals
Knowledge
- The students name different grid topologies, components and are able to use terms related to electrical power grids.
- They consider their knowledge of relevant technical and legal requirements for the connection of decentralized generators to the power grid.
- They know different calculation methods for the analysis of electerical power grids and apply the suitable methode for a particular problem.
- They consider the basiccs for the control of electrical power grids using suitable control methods.
- Summarizing it includes the following topics:
- Grid topologies and components
- Calculation and simulation of power grid
- Fault management
- Grid control
- Gridconnection of decentralized generators
Based on these competencies the students perform project works (see "Projektarbeit").
- They consider their knowledge of relevant technical and legal requirements for the connection of decentralized generators to the power grid.
- They know different calculation methods for the analysis of electerical power grids and apply the suitable methode for a particular problem.
- They consider the basiccs for the control of electrical power grids using suitable control methods.
- Summarizing it includes the following topics:
- Grid topologies and components
- Calculation and simulation of power grid
- Fault management
- Grid control
- Gridconnection of decentralized generators
Based on these competencies the students perform project works (see "Projektarbeit").
Expenditure classroom teaching
| Type | Attendance (h/Wk.) |
|---|---|
| Lecture | 2 |
| Tutorial (voluntary) | 0 |
Special literature
keine/none
Special requirements
none
Accompanying material
- Lecture presentations in PDF-Format, online in ILILAS available
Separate exam
Exam Type
interview (discussion) about special issues in scenario, project assignment or literature researchDetails
oral exam (40% of the final grade)using picture cards, which show content of lecture presentations.
This allows the testing of higher valued competences like analysis and judgement as well as the ability to put facts into a complex context.
Minimum standard
Grade 4.0Learning goals
Skills
Based on the knowledge of the lectures the students perform a project. They create simulation models of electrical power grids working in teams of 3 to 4 persons. They analyze the simulation results according to frame conditions and evaluate the results along self generated goals.
Project topics are:
Future loads of electrical power grids due to
- Photovoltaics
- Electromobility
- Electrical heat usage
- Electrical heat storages
under different requirements as e.g. settlement areas
- city
- suburban
- rural
The project work is performed during the presence time with moderation of the lecturer and as homework.
Project topics are:
Future loads of electrical power grids due to
- Photovoltaics
- Electromobility
- Electrical heat usage
- Electrical heat storages
under different requirements as e.g. settlement areas
- city
- suburban
- rural
The project work is performed during the presence time with moderation of the lecturer and as homework.
Expenditure classroom teaching
| Type | Attendance (h/Wk.) |
|---|---|
| Project | 2 |
| Tutorial (voluntary) | 0 |
Special literature
keine/none
Special requirements
none
Accompanying material
- Selected papers and data, online in ILIAS
Separate exam
Exam Type
working on projects assignment with your team e.g. in a lab)Details
Presentation of poject results (30% of the final grade):Each team presents its results in a mutual presentation. Each teammember contributes to the presentation. Individual grades will be assigned to each presenter.
And:
Writing a report about the project results (30% of the final grade):
The report is written by the whole team as a scientific paper with maximal 4 pages. A common grade will be assigned to all memebers of a team.
Minimum standard
grade 4.0
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