The course aims at consolidating the previous concepts of power systems and at applying them to realistic cases thanks to the use of dedicated softwares.
The course, with strong interactive features, is proposed to support theoretical lectures with a large "experiential" part in which, through the use of dedicated software, the student can apply personally what learnt during the theoretical explanations.
As this is a course in the last year of the MSc in electric engineering, the main expectation is that the students will be able to connect the pieces of information gained in the different power systems courses in order to solve problems relevant to the realistic traditional and up-to-date electric networks
A good knowledge of electric power plants, automatic controls and power systems/electric machines modeling is strongly recommended
Combination of traditional lectures (approx. 30 hours) with simulations done both with general purpose codes and power systems oriented ones (approx. 30 hours)
Theory and Simulation of traditional power systems:
Steady-state analysis, Harmonics, power quality, electromechanical and electromagnetic transients
Integration of Renewable energy sources: controls, grid codes and standards analysis.
Microgrids: energy management systems, islanded networks. Application to realistic test bed facilities
· R. Marconato, Sistemi elettrici di potenza, voll. I e II, CLUP, Milano, 1985.
· P. Kundur, Power systems stability and control, McGraw-Hill, New York, 1994.
F. Milano, Power system modeling and scripting, Springer, 2010
Ricevimento: Appointment with phone call or email.
Ricevimento: By appointment arranged through email or phone. Contact details: Andrea Bonfiglio, DITEN, Via Opera Pia 11a, first floor, tel. +39-0103352730, e-mail: a.bonfiglio@unige.it
RENATO PROCOPIO (President)
GIO BATTISTA DENEGRI
MARCO INVERNIZZI
ANDREA BONFIGLIO (President Substitute)
https://corsi.unige.it/8731/p/studenti-orario
Report on the exercises done in the semester and oral discussion, whose duration is around 1 hour.
A simple case to be solved with Powerfactory and an oral question on a power system test case are proposed
