To give basic understanding of the power system and the essential technical and economical aspects having influence on issues like the future electrical power system.
The students achieve knowledge about the power grid and the main components involved under production, transmission of electric energy.
The main principles and numerical tools for grid calculations are treated and will give experience and confidence for use hereof.
The course forms the base for further education within power engineering, but is in general useful for all students aiming at some specialization within electrical energy systems.
To give basic understanding of the power system and the essential technical and economical aspects having influence on issues like the future electrical power system.
The students achieve knowledge about the power grid and the main components involved under production, transmission of electric energy.
The main principles and numerical tools for grid calculations are treated and will give experience and confidence for use hereof.
The course forms the base for further education within power engineering, but is in general useful for all students aiming at some specialization within electrical energy systems.
The students should have:
- a working knowledge of ac three-phase electrical circuits,
- trigonometry, basic calculus, complex numbers, and phasor concepts
The students should have the following background:
- a working knowledge of ac three-phase electrical circuits,
- trigonometry, basic calculus, complex numbers, and phasor concepts
The lectures/tutorials/seminars are not compulsory, However students are encouraged to attend class meetings because it is assumed that the lectures, demonstrations, and discussion will facilitate their learning.
The lectures/tutorials/seminars are not compulsory, However students are encouraged to attend class meetings because it is assumed that the lectures, demonstrations, and discussion will facilitate their learning.
1. The historical development of electric power systems
2. Method in per unit for electrical grid study
3. Models of electrical loads:
4. Model of a Generator
5. Model of a Transmission line
6. Generation power plants
7. The transformers in the power grids
8. Calculation of power flows in a power grid
9. Frequency regulation
10. Voltage regulation
11. Microeconomy elements
12. Electricity markets
13 Electricity markets in Italy
1. The historical development of electric power systems
2. Method in per unit for electrical grid study
3. Models of electrical loads:
4. Model of a Generator
5. Model of a Transmission line
6. Generation power plants
7. The transformers in the power grids
8. Calculation of power flows in a power grid
9. Frequency regulation
10. Voltage regulation
11. Microeconomy elements
12. Electricity markets
13 Electricity markets in Italy
1)Roberto Marconato, Electric Power systems, Vol. 1
2) Mohamed E. El. Hawary, Electrical Power systems – Design and Analysis, Reston Publishing company
3) M. J.H. Sterling, Power system Control, IEE edition
4) S. Vinci, Introduzione alla microeconomia, Liguori editore
5) R. Cellini L. Lambertini, Una guida alla teoria dei giochi, CLUEB
6) documentation from the dedicated web sites (TERNA, GME, and so on)
1)Roberto Marconato, Electric Power systems, Vol. 1
2) Mohamed E. El. Hawary, Electrical Power systems – Design and Analysis, Reston Publishing company
3) M. J.H. Sterling, Power system Control, IEE edition
4) S. Vinci, Introduzione alla microeconomia, Liguori editore
5) R. Cellini L. Lambertini, Una guida alla teoria dei giochi, CLUEB
6) documentation from the dedicated web sites (TERNA, GME, and so on)
1) Powerpoint presentations
1) Powerpoint presentations
2) Powerworld user's guide
ELECTRIC POWER PRODUCTION AND TRANSMISSION | |||
* | Argomenti | Riferimenti testi | |
1 | * | Modelli linee elettriche | Roberto Marconato, Electric Power systems, Vol. 1 |
2 | * | Modello carichi elettrici | Roberto Marconato, Electric Power systems, Vol. 1 |
3 | * | Curve di capability | Roberto Marconato, Electric Power systems, Vol. 1 |
4 | * | Load flow dc e ac | Mohamed E. El. Hawary, Electrical Power systems – Design and Analysis, Reston Publishing company |
5 | * | optimal power flow | M. J.H. Sterling, Power system Control, IEE edition |
6 | * | Regolazione della tensione | M. J.H. Sterling, Power system Control, IEE edition |
7 | * | Regolazione della frequenza | M. J.H. Sterling, Power system Control, IEE edition |
8 | * | Stabilità dinamica | M. J.H. Sterling, Power system Control, IEE edition |
ELECTRICITY MARKET | |||
* | Argomenti | Riferimenti testi | |
1 | * | Modelli linee elettriche | Roberto Marconato, Electric Power systems, Vol. 1 |
2 | * | Modello carichi elettrici | Roberto Marconato, Electric Power systems, Vol. 1 |
3 | * | Curve di capability | Roberto Marconato, Electric Power systems, Vol. 1 |
4 | * | Load flow dc e ac | Mohamed E. El. Hawary, Electrical Power systems – Design and Analysis, Reston Publishing company |
5 | * | optimal power flow | M. J.H. Sterling, Power system Control, IEE edition |
6 | * | Regolazione della tensione | M. J.H. Sterling, Power system Control, IEE edition |
7 | * | Regolazione della frequenza | M. J.H. Sterling, Power system Control, IEE edition |
8 | * | Stabilità dinamica | M. J.H. Sterling, Power system Control, IEE edition |
9 | * | Modelli di mercato | S. Vinci, Introduzione alla microeconomia, Liguori editore |
10 | * | Mercati elettrici italiani | documentation from the dedicated web sites (TERNA, GME) |
- Oral exam and a written report about a power system problem
- Oral exam and a written report about a power system problem
none
none
none
none
The students are required to speak about two topics reported in the course program.
The students are required to speak about two topics reported in the course program.