Ingegneria Meccanica | SMART CIRCUITS FOR RENEWABLE ENERGY

cod. 0622300043

SMART CIRCUITS FOR RENEWABLE ENERGY

	0622300043
	DIPARTIMENTO DI INGEGNERIA INDUSTRIALE
	EQF7
	MECHANICAL ENGINEERING
	2018/2019

PERCORSO COMUNE Cohort 2017/2018

	YEAR OF COURSE 2
	YEAR OF DIDACTIC SYSTEM 2016
	PRIMO SEMESTRE

TEACHING UNITS

	SSD	CFU	HOURS	ACTIVITY	TYPE OF ACTIVITY
	ING-IND/31	6	60	LESSONS	OPTIONAL SUBJECTS

PROFESSORS

	GIOVANNI SPAGNUOLO T Curriculum
	WALTER ZAMBONI Curriculum

	Objectives
	THE OBJECTIVE OF THE COURSE "SMART CIRCUITS FOR RENEWABLE ENERGY" IS TO GIVE KNOWLEDGE ON OPERATION AND USE OF CIRCUITS FOR EXPLOITING RENEWABLE ENERGY ALSO INCLUDING ELECTRICAL ENERGY STORAGE UNITS. THE FIRST PART IS FOCUSED ON MODELS FOR SIMULATING GRID CONNECTED AND STAND ALONE SYSTEMS. THEN, CIRCUITS USED FOR PHOTOVOLTAIC APPLICATIONS WILL BE TREATED AND AN ANALYSIS OF THE PRODUCTS ON THE MARKET WILL BE DONE. SIMULATION AND CONTROL ISSUES, ALSO BASED ON EMBEDDED SYSTEMS, WILL BE DISCUSSED. THE COURSE IS 6 ECTS AND IS GIVEN IN ENGLISH. KNOWLEDGE AND UNDERSTANDING: - MODELING, SIMULATION AND SIZING OF PHOTOVOLTAIC SYSTEMS - MODELING, SIMULATION AND SIZING OF ELECTRICAL ENERGY STORAGE SYSTEMS - CONTROL AND ENERGY MANAGEMENT OF SMART GRIDS INCLUDING RENEWABLE ENERGY SYSTEMS AND ELECTRICAL ENERGY STORAGE UNITS. APPLIED KNOWLEDGE AND UNDERSTANDING: - TO SIMULATE AN ELECTRICAL CIRCUIT INCLUDING RENEWABLE ENERGY GENERATORS AND ELECTRICAL STORAGE SYSTEMS - TO SIZE THE PHOTOVOLTAIC SOURCE FOR A SPECIFIC APPLICATION - TO SIZE THE BATTERY FOR A SPECIFIC APPLICATION - TO SELECT THE INTERFACING CIRCUITS ON THE BASIS OF THE DATA SHEETS VALUES - TO DESIGN SIMPLE ENERGY MANAGEMENT STRATEGIES - TO IMPLEMENT ENERGY MANAGEMENT STRATEGIES WITH A COMPUTER OR AN EMBEDDED SYSTEM. MAKING JUDGEMENTS TO BE ABLE TO USE THE MORE SUITABLE METHODS FOR THE MANAGEMENTS OF A RENEWABLE ENERGY CIRCUIT AND SYSTEM. COMMUNICATION SKILLS TO BE ABLE TO SHOW, IN WRITTEN FORM, CLEARLY AND SHORTLY A PROBLEM. TO BE ABLE TO DISCUSS THE OBJECTIVES, THE PROCEDURE AND THE RESULTS OF A SIMULATION DONE. ABILITÀ COMUNICATIVE SAPER DESCRIVERE, IN FORMA SCRITTA, IN MODO CHIARO E SINTETICO UN PROBLEMA ED ESPORRE ORALMENTE, CON PROPRIETÀ DI LINGUAGGIO, GLI OBIETTIVI, IL PROCEDIMENTO E I RISULTATI DELLE ELABORAZIONI EFFETTUATE. LEARNING SKILLS TO BE ABLE TO APPLY THE ACQUIRED KNOWLEDGE TO CONTEXTS THAT ARE DIFFERENT FROM THOSE ONES PRESENTED IN THE COURSE AND TO BE ABLE TO STUDY IN DEPTH THE TOPICS TREATED IN THE COURSE BY USING TEXTBOOKS DIFFERENT FROM THOSE ONES PROPOSED BY THE TEACHER.

THE OBJECTIVE OF THE COURSE "SMART CIRCUITS FOR RENEWABLE ENERGY" IS TO GIVE KNOWLEDGE ON OPERATION AND USE OF CIRCUITS FOR EXPLOITING RENEWABLE ENERGY ALSO INCLUDING ELECTRICAL ENERGY STORAGE UNITS. THE FIRST PART IS FOCUSED ON MODELS FOR SIMULATING GRID CONNECTED AND STAND ALONE SYSTEMS. THEN, CIRCUITS USED FOR PHOTOVOLTAIC APPLICATIONS WILL BE TREATED AND AN ANALYSIS OF THE PRODUCTS ON THE MARKET WILL BE DONE. SIMULATION AND CONTROL ISSUES, ALSO BASED ON EMBEDDED SYSTEMS, WILL BE DISCUSSED. THE COURSE IS 6 ECTS AND IS GIVEN IN ENGLISH.

KNOWLEDGE AND UNDERSTANDING:
- MODELING, SIMULATION AND SIZING OF PHOTOVOLTAIC SYSTEMS
- MODELING, SIMULATION AND SIZING OF ELECTRICAL ENERGY STORAGE SYSTEMS
- CONTROL AND ENERGY MANAGEMENT OF SMART GRIDS INCLUDING RENEWABLE ENERGY SYSTEMS AND ELECTRICAL ENERGY STORAGE UNITS.

APPLIED KNOWLEDGE AND UNDERSTANDING:
- TO SIMULATE AN ELECTRICAL CIRCUIT INCLUDING RENEWABLE ENERGY GENERATORS AND ELECTRICAL STORAGE SYSTEMS
- TO SIZE THE PHOTOVOLTAIC SOURCE FOR A SPECIFIC APPLICATION
- TO SIZE THE BATTERY FOR A SPECIFIC APPLICATION
- TO SELECT THE INTERFACING CIRCUITS ON THE BASIS OF THE DATA SHEETS VALUES
- TO DESIGN SIMPLE ENERGY MANAGEMENT STRATEGIES
- TO IMPLEMENT ENERGY MANAGEMENT STRATEGIES WITH A COMPUTER OR AN EMBEDDED SYSTEM.

MAKING JUDGEMENTS
TO BE ABLE TO USE THE MORE SUITABLE METHODS FOR THE MANAGEMENTS OF A RENEWABLE ENERGY CIRCUIT AND SYSTEM.

COMMUNICATION SKILLS
TO BE ABLE TO SHOW, IN WRITTEN FORM, CLEARLY AND SHORTLY A PROBLEM. TO BE ABLE TO DISCUSS THE OBJECTIVES, THE PROCEDURE AND THE RESULTS OF A SIMULATION DONE.

ABILITÀ COMUNICATIVE
SAPER DESCRIVERE, IN FORMA SCRITTA, IN MODO CHIARO E SINTETICO UN PROBLEMA ED ESPORRE ORALMENTE, CON PROPRIETÀ DI LINGUAGGIO, GLI OBIETTIVI, IL PROCEDIMENTO E I RISULTATI DELLE ELABORAZIONI EFFETTUATE.

LEARNING SKILLS
TO BE ABLE TO APPLY THE ACQUIRED KNOWLEDGE TO CONTEXTS THAT ARE DIFFERENT FROM THOSE ONES PRESENTED IN THE COURSE AND TO BE ABLE TO STUDY IN DEPTH THE TOPICS TREATED IN THE COURSE BY USING TEXTBOOKS DIFFERENT FROM THOSE ONES PROPOSED BY THE TEACHER.

	Prerequisites
	TO ACHIEVE THE OBJECTIVE THE BASIC ELEMENTS OF CIRCUIT THEORY, MATHEMATICS IN TIME AND FREQUENCY DOMAINS, PROGRAMMING IN MATLAB OR SIMILAR HIGH LEVEL LANGUAGES ARE REQUIRED.

	Contents
	LECTURES, NUMERICAL EXERCISES AND LABORATORY SUM UP IN 60 HOURS. TOPICS: - MODELING OF RENEWABLE ENERGY GENERATORS; SINGLE DIODE PHOTOVOLTAIC MODEL, IRRADIANCE AND TEMPERATURE DEPENDENCIES, DC MODEL OF A WIND GENERATOR, POWER VS WIND SPEED, MAXIMUM POWER POINT TRACKING, PERTURBATIVE CONTROL (15H, LECTURE 7H, SIMULATION 4H, LAB 4H) - STORAGE SYSTEMS, BATTERIES, OPERATION PRINCIPLES, TYPES AND PARAMETERS, LITHIUM BATTERIES, BATTERY MANAGEMENT SYSTEM, STATE OF CHARGE, STATE OF HEALTH, STATE OF FUNCTION. CIRCUIT MODELING OF BATTERIES, PARAMETRIC IDENTIFICATION. CHARGING AND DISCHARGING. TESTS. (15H, LECTURE 7H, SIMULATION 4H, LAB 4H) - INTERFACING CIRCUITS, DC/DC AND DC/AC CONVERTERS. (20H, LECTURES 12H, SIMULATIONS 8H) - IMPLEMENTATION OF MODELS AND CONTROL TECHNIQUES (10H, LECTURES 2H, LAB 8H)

Contents

LECTURES, NUMERICAL EXERCISES AND LABORATORY SUM UP IN 60 HOURS.

TOPICS:
- MODELING OF RENEWABLE ENERGY GENERATORS; SINGLE DIODE PHOTOVOLTAIC MODEL, IRRADIANCE AND TEMPERATURE DEPENDENCIES, DC MODEL OF A WIND GENERATOR, POWER VS WIND SPEED, MAXIMUM POWER POINT TRACKING, PERTURBATIVE CONTROL (15H, LECTURE 7H, SIMULATION 4H, LAB 4H)
- STORAGE SYSTEMS, BATTERIES, OPERATION PRINCIPLES, TYPES AND PARAMETERS, LITHIUM BATTERIES, BATTERY MANAGEMENT SYSTEM, STATE OF CHARGE, STATE OF HEALTH, STATE OF FUNCTION. CIRCUIT MODELING OF BATTERIES, PARAMETRIC IDENTIFICATION. CHARGING AND DISCHARGING. TESTS. (15H, LECTURE 7H, SIMULATION 4H, LAB 4H)
- INTERFACING CIRCUITS, DC/DC AND DC/AC CONVERTERS. (20H, LECTURES 12H, SIMULATIONS 8H)
- IMPLEMENTATION OF MODELS AND CONTROL TECHNIQUES (10H, LECTURES 2H, LAB 8H)

	Teaching Methods
	.

	Verification of learning
	.

	Texts
	E-LEARNING ON DIEM PORTAL: ELEARNING.DIEM.UNISA.IT. LOGIN AND PASSWORD: CAU UNISA. FURTHER READINGS - MAKSIMOVIC, ERICKSON, FUNDAMENTALS OF POWER ELECTRONICS, SPRINGER - N. FEMIA, G. PETRONE, G. SPAGNUOLO, AND M. VITELLI, POWER ELECTRONICS AND CONTROL TECHNIQUES FOR MAXIMUM ENERGY HARVESTING IN PHOTOVOLTAIC SYSTEMS, 1ST ED. CRC PRESS, 2012. - G. PETRONE, C.A.RAMOS-PAJA, G. SPAGNUOLO: PHOTOVOLTAIC SOURCES MODELING, WILEY-IEEE PRESS 2017. - R. TEODORESCU, M.LISERRE, P.RODRIGUEZ: GRID CONVERTERS FOR PHOTOVOLTAIC AND WIND POWER SYSTEMS, WILEY 2011. - THOMAS REDDY, LINDEN HANDBOOK OF BATTERIES, 4TH EDITION, MCGRAW HILL PROFESSIONAL, 2010 - DAVIDE ANDREA, BATTERY MANAGEMENT SYSTEMS FOR LARGE LITHIUM ION BATTERY PACKS, ARTECH HOUSE, 2010 - LECTURE NOTES ON THE COURSE WEBSITE. SCIENTIFIC PAPERS.

Texts

E-LEARNING ON DIEM PORTAL: ELEARNING.DIEM.UNISA.IT.
LOGIN AND PASSWORD: CAU UNISA.

FURTHER READINGS
- MAKSIMOVIC, ERICKSON, FUNDAMENTALS OF POWER ELECTRONICS, SPRINGER
- N. FEMIA, G. PETRONE, G. SPAGNUOLO, AND M. VITELLI, POWER ELECTRONICS AND CONTROL TECHNIQUES FOR MAXIMUM ENERGY HARVESTING IN PHOTOVOLTAIC SYSTEMS, 1ST ED. CRC PRESS, 2012.
- G. PETRONE, C.A.RAMOS-PAJA, G. SPAGNUOLO: PHOTOVOLTAIC SOURCES MODELING, WILEY-IEEE PRESS 2017.
- R. TEODORESCU, M.LISERRE, P.RODRIGUEZ: GRID CONVERTERS FOR PHOTOVOLTAIC AND WIND POWER SYSTEMS, WILEY 2011.
- THOMAS REDDY, LINDEN HANDBOOK OF BATTERIES, 4TH EDITION, MCGRAW HILL PROFESSIONAL, 2010
- DAVIDE ANDREA, BATTERY MANAGEMENT SYSTEMS FOR LARGE LITHIUM ION BATTERY PACKS, ARTECH HOUSE, 2010
- LECTURE NOTES ON THE COURSE WEBSITE. SCIENTIFIC PAPERS.