Smart distribution networks
University teachers: Blažič Boštjan
Number of credits: 4
Description of the subject
Conditions for work or study:
Enrolment in electrical engineering.
Content:
General characteristics of a distribution network with distributed generation; Load characteristics, consumption and generation of electricity; Integration of distributed generation; Integration of electricity storage technologies; Impact of electric vehicles on the distribution network; Forecasting consumption and generation; Optimal management of the distribution network using smart grid technologies; Virtual power plant; Power quality in distribution networks; Distribution network planning.
Objectives and competences:
The student will have a basic understanding of the operation and modelling of modern distribution networks. He/she will acquire a basic knowledge of how to determine the impact of renewables and electric vehicles on the operation of the distribution network. The student will learn about the basic technologies of smart grids.
Intended study outcomes:
After a successful completion of the module, students should be able to:
- describe the structure and control of the distribution system,
- explain approaches to modelling distribution network elements,
- develop a model of the distribution network,
- evaluate the impact of electric vehicles on the distribution network,
- evaluate the impact of renewable sources on the distribution network,
- apply modern concepts for managing the distribution network.
Methods:
Lectures, auditorium and laboratory tutorials, preparation of a seminar paper in the framework of a selected project assignment.
Resources
- William H. Kersting, Distribution System Modeling and Analysis, CRC Press, 2002.
- Box, George E. P.; Jenkins, Gwilym M.; Reinsel, Gregory C.; Ljung, Greta M., Time series analysis: forecasting and control, Wiley, 2016
- Bollen, Math H. J., Understanding power quality problems: voltage sags and interruptions, New York, IEEE Press, 2000
- Bollen, Math H. J.; Hassan, Fainan, Integration of distributed generation in the power system, Wiley, 2011
- Abur, A.; Exposito, A. G., Power system state estimation: theory and implementation, CRC press, 2004.
Studies on which the course is based
- 0 year - cycle - Extracurricular activities