1015319 - ELECTRIC POWER PRODUCTION, TRANSMISSION AND ELECTRICITY MARKETS A - Z
Module 1015320 - ELECTRIC POWER PRODUCTION AND TRANSMISSION
Expected Learning Outcomes
A student who has continuously followed lectures and exercises foreseen by the course will be able to:
• identify the main quantities that characterize a power system;
• Calculate the electrical variables in an electrical network;
• know the equivalent models of the main components of a power system;
• Model an electrical network using the models and related parameters correctly;
• Describe the control of the network through the variables P, Q, V, delta;
• Simulate and evaluate power flows;
• Analyze network conditions that can create problems of instability and insecurity;
• Use specialist programs such as Power World Simulator for network studies.
Course Structure
Lecture organization
Lecturing is used to convey knowledge and it is organized as follows:
1) the lecture notes are outlined— first major points, then the minor points that elaborate on or explain each major point;
2) relevant, concrete examples, in advance of the lecture, selecting examples familiar and meaningful to the students are provided;
3) students are allowed to stop the lecture to ask relevant questions, make comments, or ask for review;
4) intersperse periodic summaries within the lecture.are considered;
5) lectures start with a question, problem, current event, or something that just grabs the students’ attention;
6) active learning techniques are used (technological aids, such as multimedia presentations);
7) simulations sessions are used to check and grasp the theoretical concepts.
Required Prerequisites
The students should have a working knowledge of:
1) ac three-phase electrical circuits,
2) trigonometry, basic calculus, complex numbers, and phasor concepts
Attendance of Lessons
The frequency of teaching shall not exceed 70% of the teaching hours, without prejudice to the provisions of Article 27 of the RDA and the Regulations on the recognition of the status of a working student, a sports student, a student in a difficult situation and a student with a disability
Students are encouraged to attend all class sessions as it is expected that the lectures, demonstrations and discussions will facilitate their learning.
Detailed Course Content
Modulo ELECTRIC POWER PRODUCTION AND TRANSMISSION
1. Introduction to power systems
2. Method in per unit applied to power systems
3. Models of electrical loads
4. Model of synchronous generators
5. Transmission line parameters: inductance, capacitance, resistance and conductance
6. Transmission line: Sinusoidal AC steady state operation
7. Power system analysis: load flow and sensitivity analysis
8. Voltage regulation
9. Frequency regulation
10. Transient stability
11. Programmable power plants: Hydro and thermo
Textbook Information
Learning materials are resources that the professor uses to help students achieve the learning outcomes of your course. Specifically, the following materials are used:
1) Reference books (see list below).
2) Lecture notes (provided by the professor).
3) PowerPoint presentations (provided by the professor).
| Author | Title | Publisher | Year | ISBN |
|---|---|---|---|---|
| F. Rossi | Gestione dei sistemi elettrici nei mercati liberalizzati | Edizioni Scientifiche Italiane | 2007 | 9788849515190 |
| R. Marconato | Electric power systems. Vol. 1: Background and basic components | CEI | 2002 | 9788843200146 |
| A. Paolucci | Lezioni di trasmissione dell’energia elettrica | CLEUP | 1994 | 9788871783109 |
| F. Iliceto | Impianti elettrici vol 1 | Pàtron | 1984 | 8855517252 |
| B. M. Weedy, B. J. Cory, N. Jenkins, Janaka B. Ekanayake, Goran Strbac | Electric Power Systems | John Wiley & Sons | 2012 | 9781305636187 |
| R. Marconato | Electric Power Systems, Vol II: Steady-State Behaviour, Controls, Short-Circuits and Protection Systems | CEI | 2004 | 9788843200252 |
| R. Bergen, V. Vittal | Power systems analysis voll. II | Pearson International edition | 2000 | 9780136919902 |
| M. E. El-Hawary | Electrical Power Systems – design and analysis | Reston Edition | 1983 | 9780835916271 |
Course Planning
| Subjects | Text References | |
|---|---|---|
| 1 | Introduction to modern power systems | Class note and powerpoint presentation (provided by the professor). |
| 2 | p.u. method and transformer models in power systems | Class note and powerpoint presentation (provided by the professor). [2] |
| 3 | Models of power system components: Load and demand | Class note and powerpoint presentation (provided by the professor). [2] |
| 4 | Models of power system components: synchronous generators | Class note and powerpoint presentation (provided by the professor). [2], [6] |
| 5 | Fundamental constants of the transmission line: a) resistance and conductance; b) Inductance; and c) Capacitance | Class note and powerpoint presentation (provided by the professor). [6] |
| 6 | Models of power system components: Transmission lines: sinusoidal AC steady state operation | Class note and powerpoint presentation (provided by the professor). [2] |
| 7 | Power system model and Power flow analysis | Class note and powerpoint presentation (provided by the professor). [6] |
| 8 | Voltage regulation and reactive power management | Class note and powerpoint presentation (provided by the professor). [5] |
| 9 | Reactive power compensation in the transmission lines | Class note and powerpoint presentation (provided by the professor). [7] |
| 10 | Frequency regulation in power systems | Class note and powerpoint presentation (provided by the professor). [8] |
| 11 | Transient stability in power systems | Class note and powerpoint presentation (provided by the professor). [9] |
| 12 | Programmable production plants: hydroelectric and thermoelectric | Class note and powerpoint presentation (provided by the professor). |
Learning Assessment
Learning Assessment Procedures
- Oral exam: 2 or 3 questions on the topics listed in the program,
- a final written report on a specific technical or economic problem of the electricity system
Important note: Verification of learning can also be carried out electronically, should the conditions require it.
Versione in italiano