Università degli Studi di Napoli "Parthenope"

Teaching schedule

Academic year: 
2019/2020
Belonging course: 
Course of Bachelor's Degree Programme on MANAGEMENT ENGINEERING
Location: 
Napoli
Disciplinary sector: 
ELECTRICAL POWER SYSTEMS (ING-IND/33)
Language: 
Italian
Credits: 
6
Year of study: 
3
Teachers: 
Cycle: 
Second semester
Hours of front activity: 
48

Language

Italian

Course description

Objectives.
The course aims to provide the main concepts, models and tools for planning and management of modern Smart Grids with particular reference to the evaluation of electrical efficiency in medium and low voltage power systems.

Dublin descriptors.
Knowledge and understanding
The student must demonstrate knowledge and understanding of:
a) the main aspects of liberalized electricity markets;
b) the methodologies for the assessment of the energy efficiency in medium and low voltage power systems;
c) the main methodologies for the technical and economic planning of the measures to improve energy efficiency in medium and low voltage power systems;
d) the main methodologies for smart grid management.

Applying knowledge and understanding
The student must demonstrate to be able:
a) to assess the energy efficiency of medium and low voltage electrical power systems;
b) to design solutions for improving the energy efficiency of medium and low voltage electrical power systems;
c) to apply the basic methods for the technical and economic evaluation of energy efficiency measures;
d) to implement simple models for the optimal management of smart grids in the framework of liberalized electricity markets.

Making judgments
The student must be able to know how:
a) to evaluate the efficiency of an electrical system and its main components, with particular reference to medium and low voltage networks.
a) to identify the measures to improve the energy efficiency of an electrical installation;
b) to implement optimal management of a smart grid in the liberalized electricity markets.

Communication skills
The student must have the ability to explain in a simple way the main solutions to improve energy efficiency of power systems and for planning and managing smart grids. In addition, it must demonstrate the ability to present a project and expose the results using proper scientific language.

Learning skills
The student must be able to:
a) elaborate, organize, summarize the acquired course contents;
b) continuously update his/her knowledge by consulting texts and publications on planning and management of modern Smart Grids with particular reference to the evaluation of electrical efficiency in medium and low voltage power systems.

Prerequisites

It is necessary to acquire and assimilate the following knowledge provided by the "Electrotechnical" and "Electrical Systems" courses:
a) knowledge of the fundamental concepts of electrical circuits. In particular, Kirchhoff's laws, Thevénin-Norton's theorem, complex power, active power and reactive power, methods for resolution of linear circuit, balanced and unbalanced three-phase power systems.
b) Knowledge of function the main components of an electrical power system and criteria for their sizing. Knowledge of problems related to an electrical power system under normal operating conditions.

Syllabus

The liberalized electricity market (1.5 CFU - 10 hours of lesson + 2 hours of exercises):
The liberalized electricity market in Italy. Market operators: producers, distribution system operators, transmission system operator, customers, prosumers, Acquirente Unico, management of the Electricity Market. (0.5 CFU - 4 hours)
Day-Ahead Market. Zonal Day-Ahead Market. Exercises. (0.5 CFU - 2 hours of lesson and 2 hours of exercises).
Markets prices and tariffs. Environmental Markets. (0.5 CFU - 4 hours)
Energy Efficiency of Electrical Systems (4.5 CFU - 27 Hours of Classroom and 9 Hours of Exercise):
Energy Efficiency in Italy. Standard 64.8-8. Estimating load profile. (0.5 CFU - 4 hours)
Efficiency of user equipment: electric motors, lighting systems, heating, ventilation and air conditioning systems. (0.5 CFU - 2 hours of lesson and 2 hours of exercises)
Efficiency of Distribution System: Allocation of MV/LV substation, Transformer Efficiency and line optimal design. Numerical applications (0.5 CFU - 3 hours of lesson and 1 hour of exercises)
Efficiency of distribution system: power factor correction systems. Technologies, sizing and management. Technical-economic planning for installation of centralized and distributed power factor correction systems. (1 CFU - 6 hours of lesson and 2 hours of exercises)
Efficiency of distribution System: distributed generation. Photovoltaic systems: components and operation. Economic incentives. Economic analysis of photovoltaic installation. (0.5 CFU - 2 hours of lesson and 2 hours of exercises)
Efficiency of Distribution System: Smart Grids. Definition and classification. Optimal management. Models for economic dispatching in Smart Grids. (1 CFU - 6 hours of lesson and 2 hours of exercises)
Evaluation of energy efficiency of an electrical power system. Evaluation of efficiency measures and energy efficiency performance levels of an electrical system. (0.5 CFU - 4 hours).

Course contents include the study of the modern liberalized electricity markets and the main methodologies to improve energy efficiency of electrical power systems.
Contents details.
The liberalized electricity market (1.5 CFU - 10 hours of lesson, 2 of exercises):
Producers, distribution and transmission system operators, customers, Acquirente Unico, Electricity Market. (0.5 CFU - 4 hours)
Day-Ahead Market. Zonal Day-Ahead Market. (0.5 CFU - 2 hours of lesson, 2 of exercises). Markets prices and tariffs. (0.5 CFU - 4 hours)
Energy Efficiency of Electrical Systems (4.5 CFU - 27 hours of lesson, 9 of exercises): Standard 64.8-8. (0.5 CFU - 4 hours). Efficiency of user equipment: electric motors, lighting systems. (0.5 CFU - 2 hours of lesson, 2 of exercises). Efficiency of Distribution System: substations, transformers and lines. (0.5 CFU - 3 hours of lesson, 1 of exercises). Power factor correction systems. Technologies, sizing and management. (1 CFU - 6 hours of lesson, 2 of exercises)
Photovoltaic systems: components and operation. Economic incentives. Economic analysis of photovoltaic installation. (0.5 CFU - 2 hours of lesson, 2 of exercises)
Smart Grids. Definition and classification. Optimal management. (1 CFU - 6 hours of lesson, 2 of exercises)
Evaluation of energy efficiency of an electrical power system. (0.5 CFU - 4 hours)

Teaching Methods

Lectures

Textbooks

Books:
Integrating renewables in electricity markets: operational problems. J.M. Morales, A.J. Conejo, H. Madsen, P. Pinson, Ma. Zugno. Editore: Springer

Smart Grid: fundamentals of design and analysis. J. Momoh. Editore: Wiley.

Notes and slides provided by teacher available on website (http://www.ingegneria.uniparthenope.it/).
Online references: http://www.gse.it/, http://www.efficienzaenergetica.enea.it/,
http://www.autorita.energia.it/, http://www.mercatoelettrico.org/it/.

Learning assessment

The objective of the exam is to check the level of achievement of the objectives previously indicated.
The exam is divided into two parts.
The first part is based on a question that requires to resolve numerical exercises with the aim of assessing whether the student is able to apply the methodologies for the improvement of the energy efficiency of a medium and low voltage electrical power system. The question includes the solution of exercises on the topics: electrical energy markets and methodologies for the improvement of the energy efficiency. It is mandatory for the student to pass the exercise part in order to continue the exam.
In the second part the level of knowledge of the topics covered during the course will be evaluated. This part typically consists of two questions, one dealing with liberalized electrical energy markets and one dealing with energy efficiency.
The exam is usually completed in about 60 minutes. The final grade is the average value of the two grades achieved by the student in the two parts of the exam.

More information

The professor is fluent in English and he is available to interact with students in English, also during the examination.
Information about the time table for student interaction are at the following link https://uniparthenope.esse3.cineca.it/Guide/PaginaDocente.do?docente_id=...