Giovanni SPAGNUOLO | SISTEMI INTEGRATI PER L'ENERGIA SOSTENIBILE

cod. 0622700040

SISTEMI INTEGRATI PER L'ENERGIA SOSTENIBILE

	0622700040
	DIPARTIMENTO DI INGEGNERIA DELL'INFORMAZIONE ED ELETTRICA E MATEMATICA APPLICATA
	EQF7
	COMPUTER ENGINEERING
	2016/2017

CURRICULUM INDIRIZZO INFORMATICA Cohort 2015/2016

	YEAR OF COURSE 2
	YEAR OF DIDACTIC SYSTEM 2015
	SECONDO SEMESTRE

TEACHING UNITS

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

PROFESSORS

	NICOLA FEMIA T Curriculum
	GIOVANNI SPAGNUOLO Curriculum

	Objectives
	The course discusses methods, algorithms, acquisition and elaboration techniques of experimental data for the development of integrated systems for diagnostic, control and optimization of high efficiency energy sources, power decìvices and power circuits. Applications treated are relevant to renewable source systems, energy storage systems, wireless power systems, aerospace power supply units, systems identification and IoT. Knowledge and understanding Methods and technologies for the identification, the optimization, the control and the test applied to energy sources and to high energy-efficiency devices and circuits. Applying knowledge and understanding Application of the presented techniques and implementation of the corresponding algorithms in digitally controlled systems.

The course discusses methods, algorithms, acquisition and elaboration techniques of experimental data for the development of integrated systems for diagnostic, control and optimization of high efficiency energy sources, power decìvices and power circuits. Applications treated are relevant to renewable source systems, energy storage systems, wireless power systems, aerospace power supply units, systems identification and IoT.

Knowledge and understanding
Methods and technologies for the identification, the optimization, the control and the test applied to energy sources and to high energy-efficiency devices and circuits.

Applying knowledge and understanding
Application of the presented techniques and implementation of the corresponding algorithms in digitally controlled systems.

	Prerequisites
	PREREQUISITE COURSES: CIRCUITI ED ALGORITMI PER LE APPLICAZIONI INDUSTRIALI, INTELLIGENZA ENERGETICA KNOWLEDGE OF FUNDAMENTALS AND APPLICATIONS OF AUTOMATIC CONTROL, EMBEDDED SYSTEMS AND RELEVANT SENSOR AND ACTUATORS INTERFACING, POWER MANAGEMENT CIRCUITS, CIRCUITS AND ALGORITHMS FOR POWER PROCESSING, ARE PREFERRED.

	Contents
	METHODS FOR ON-LINE PARAMETRIC IDENTIFICATION, OPTIMIZATION AND DIAGNOSIS OF SYSTEMS FOR ELECTRIC ENERGY GENERATION AND STORAGE. IMPEDANCE ANALYSIS. KALMAN FILTERS AND ESTIMATORS. APPLICATIONS TO PHOTOVOLTAIC SYSTEMS, FUEL CELL SYSTEMS AND BATTERY STORAGE SYSTEMS, AND RELEVANT EMBEDDED SYSTEMS-BASED IMPLEMENTATIOND. (CLASS/EXCERCISE/LABORATORY 5/5/5) OPTIMIZATION OF SYSTEMS FOR ENERGY GENERATION FROM RENWEABLE SOURCES. ISLANDED GENERATION SYSTEMS WITH ELECTRIC ENERGY STORAGE. STOCHASTIC METHODS APPLICATIONS. (CLASS/EXCERCISE/LABORATORY 5/5/5) EXPERIMENTAL ACQUISITION TECHNIQUES AND DIGITAL CONTROL SYSTEMS FOR STATIC AND DYNAMIC AUTOMATIC TESTING OF ENERGY SOURCES, DEVICES AND CIRCUITS FOR HIGH ENERGY EFFICIENCY. (CLASS/EXCERCISE/LABORATORY 5/5/5) DETERMINISTIC AND EVOLUTIONARY NUMERICAL TECHNIQUES AND ALGORITHMS FOR BEHAVIORAL MODELING OF HIGH ENERGY EFFICIENCY ELECTRIC DEVICES AND SYSTEMS, AND RELEVANT APPLICATION TO PHOTOVOLTAIC, AEROSPACE END WIRELESS POWER SYSTEMS. (CLASS/EXCERCISE/LABORATORY 5/5/5)

Contents

METHODS FOR ON-LINE PARAMETRIC IDENTIFICATION, OPTIMIZATION AND DIAGNOSIS OF SYSTEMS FOR ELECTRIC ENERGY GENERATION AND STORAGE. IMPEDANCE ANALYSIS. KALMAN FILTERS AND ESTIMATORS. APPLICATIONS TO PHOTOVOLTAIC SYSTEMS, FUEL CELL SYSTEMS AND BATTERY STORAGE SYSTEMS, AND RELEVANT EMBEDDED SYSTEMS-BASED IMPLEMENTATIOND. (CLASS/EXCERCISE/LABORATORY 5/5/5)

OPTIMIZATION OF SYSTEMS FOR ENERGY GENERATION FROM RENWEABLE SOURCES. ISLANDED GENERATION SYSTEMS WITH ELECTRIC ENERGY STORAGE. STOCHASTIC METHODS APPLICATIONS. (CLASS/EXCERCISE/LABORATORY 5/5/5)

EXPERIMENTAL ACQUISITION TECHNIQUES AND DIGITAL CONTROL SYSTEMS FOR STATIC AND DYNAMIC AUTOMATIC TESTING OF ENERGY SOURCES, DEVICES AND CIRCUITS FOR HIGH ENERGY EFFICIENCY. (CLASS/EXCERCISE/LABORATORY 5/5/5)

DETERMINISTIC AND EVOLUTIONARY NUMERICAL TECHNIQUES AND ALGORITHMS FOR BEHAVIORAL MODELING OF HIGH ENERGY EFFICIENCY ELECTRIC DEVICES AND SYSTEMS, AND RELEVANT APPLICATION TO PHOTOVOLTAIC, AEROSPACE END WIRELESS POWER SYSTEMS. (CLASS/EXCERCISE/LABORATORY 5/5/5)

	Teaching Methods
	THE COURSE IS TAUGHT WITH EQUAL HOURS DISTRIBUTION AMONG CLASSES, SIMULATION EXERCISES AND LABORATORY EXPERIMENTS, DURING WHICH THE STUDENTS DEVELOP A SPECIFIC DESIGN APPLICATION.

	Verification of learning
	THE EXAM CONSISTS IN THE DISCUSSION OF THE DESIGN APPLICATION DEVELOPED BY THE STUDENT DURING THE COURSE, AIMED AT THE ASSESSMENT OF THE STUDENT CAPABILITY OF FORMALIZING A PROBLEM, SELECTING AND IMPLEMENTINS ADEQUATE MODELS AND METHODS FOR THE SOLUTION, AND ANALYZING THE ACHIEVED RESULTS WITH RESPECT TO GOALS.

	Texts
	- N.FEMIA, G.PETRONE, G.SPAGNUOLO, M.VITELLI, POWER ELECTRONICS AND CONTROL TECHNIQUES FOR MAXIMUM ENERGY HARVESTING IN PHOTOVOLTAIC SYSTEMS, CRC PRESS 2012. - LECTURE NOTES DELIVERED THROUGH THE COURSE WEB SITE.

	More Information
	THE COURSE IS TAUGHT LIVE IN ENGLISH

BETA VERSION Data source ESSE3 [Ultima Sincronizzazione: 2019-03-11]

Giovanni SPAGNUOLO | SISTEMI INTEGRATI PER L'ENERGIA SOSTENIBILE