Code: | 217650 |
Module title: | Basics of Electrical Power Systems |
Version: | 1.0 (06/2016) |
Last update: | 12.12.2023 11:16:43 | Person responsible for content: | Prof. Dr.-Ing. Schmidt, Uwe uwe.schmidt@hszg.de |
Semester according to timetable: | SoSe+WiSe (summer and winter semester) |
Module level: | All study levels |
Duration: | 1 semester |
Language of Instruction: | English |
Place where the module will be offered: | Zittau |
ECTS Credits: | 5 |
Student workload (in hours): | 150 |
Number of hours of teaching: | |||||
Lecture |
Seminar/Exercise |
Laboratory work |
Other |
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Self study time (in hours): | |||||
Learning and teaching methods: | The communication of knowledge/expertise takes the form of lectures, exercises and seminars. |
Exam(s) | |||
Assessment | Major written exam | 100.0% |
Syllabus plan/Content: | Calculation methods
Symmetrical components Diagonal components Park´s transformation Transformations Layout of electrical power systems
System configurations System elements
Resistances, reactances, impedances Transmission behaviour Cables
Resistances, reactances, impedances Transmission behaviour Generators
Reactances, time constants Complex planes, equivalent circuits Transformers
Equivalent circuits Rated data Voltage regulation Losses Reactors Capacitors Neutral point treatment
Low-impedance neutral point treatment Resonant neutral point treatment Faults
Faults in symmetrical components 3phase faults 2phase faults 1phase faults |
Learning Goals | |
Subject-specific skills and competences: | - become aware of the power system structure and operation - knowledge about intelligent electrial equipment in power systems - basic understanding of how to use renewable energy |
Generic competences (Personal and key skills): | - technical understanding - overlapping system approaches - independent scientific work |
Prerequisites: | Competencies in electrical engineering and mathematics are required. |
Optional: | - Electrical circuits I - Mathematics I and II - Physics |
Literature: | Goenen: Electric Power Distribution Engineering; CRC Press; 2014 Meier: Electric Power Systems: A Conceptual Introduction; John Wiley & Sons; 2006 Oeding, D.; Oswald, B.: Elektrische Kraftwerke und Netze; Springer Verlag; Berlin, Heidelberg, New York; 6. Auflage; 2010 Schwab, A.: Elektro-Energiesysteme, Erzeugung, Transport, Übertragung und Verteilung elektrischer Energie Springer Verlag; Berlin, Heidelberg, New York; 2009 |