SISTEMI INTEGRATI PER L'ENERGIA SOSTENIBILE

Ingegneria Informatica SISTEMI INTEGRATI PER L'ENERGIA SOSTENIBILE

0622700040
DIPARTIMENTO DI INGEGNERIA DELL'INFORMAZIONE ED ELETTRICA E MATEMATICA APPLICATA
EQF7
COMPUTER ENGINEERING
2018/2019



YEAR OF COURSE 2
YEAR OF DIDACTIC SYSTEM 2017
SECONDO SEMESTRE
CFUHOURSACTIVITY
648LESSONS
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 PARAMETRIC IDENTIFICATION AND STATE ESTIMATION IN T- AND F-DOMAIN. STOCHASTIC AND DETERMINISTIC APPROACHES. OPTIMIZATION, CONTROL AND TEST OF ENERGY SOURCES, AND HIGH EFFICIENCY DEVICES AND CIRCUITS. MODELS AND CONTROL OF SUSTAINABLE ENERGY SYSTEMS. ONLINE DIAGNOSTIC ALGORITHMS

APPLYING KNOWLEDGE AND UNDERSTANDING
IMPLEMENTATION OF ALGORITHMS IN DIGITAL CONTROL SYSTEMS. ALGORITHM IMPLEMENTATION ON MICROCONTROLLERS, DSP AND/OR FPGA. HIGH-LEVEL PROGRAMMING AND AUTOMATIC CODE GENERATION FOR EMBEDDED SYSTEMS BY USING COMMERCIAL TOOLS.

Prerequisites
STUDENTS SHOULD HAVE, AT A MINIMUM, KNOWLEDGE OF THE THE BASIC CONTENTS OF CIRCUITS AND ALGORITHMS FOR INDUSTRIAL APPLICATION AND APPLICATION IN ENERGY INTELLIGENCE.
Contents
MODELING AND SIMULATION OF PHOTOVOLTAIC GENERATORS, FUEL CELLS AND RECHARGEABLE BATTERIES FOR STATIONARY APPLICATIONS, FOR ELECTRICAL MOBILITY AND IN GENERAL FOR RENEWABLE ENERGY APPLICATIONS. EMBEDDED SYSTEMS USE FOR PARAMETRIC IDENTIFICATION AND DIAGNOSIS IN RENEWABLE ENERGY SYSTEMS. STATE ESTIMATION. CIRCUITS FOR POWER PROCESSING AND BATTERY RECHARGING. DIAGNOSIS OF ELECTROCHEMICAL SYSTEMS: IMPLEMENTATION OF THE ON LINE ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY.ENERGY MANAGEMENT IN RENEWABLE ENERGY SYSTEMS.
Teaching Methods
THE COURSE IS A 48-HOUR TAUGHT COURSE, DIVIDED INTO LECTURES (16 HRS) AND LAB ACTIVITIES (32 HRS). LECTURES ARE AIMED AT PRESENTING DEVICE MODELS AND ESTIMATION, IDENTIFICATION AND DIAGNOSTIC TECHNIQUES. COMPUTER-AIDED LAB ACTIVITIES WILL DEAL WITH SIMULATION, DESIGN, DEVELOPMENT AND DIGITAL DEVICE IMPLEMENTATION ISSUES.
Verification of learning
STUDENTS WILL BE REQUIRED TO DEVELOP A PROJECT DURING THE COURSE, WHICH WILL BE DISCUSSED IN THE FINAL ASSESSMENT. THE FINAL ASSESSMENT CONSISTS OF AN ORAL EXAM AIMED AT ASSESSING STUDENTS’KNOWLEDGE AND UNDERSTANDING OF COURSE CONTENTS, THEIR ABILITY OF APPLYING AND PRESENTING KNOWLEDGE, AND THE ABILITY TO ORGANIZE THEIR WORK INDEPENDENTLY. THE MARK IS IN THIRTIES.
Texts
N. FEMIA, G. PETRONE, G. SPAGNUOLO, M. VITELLI, POWER ELECTRONICS AND CONTROL TECHNIQUES FOR MAXIMUM ENERGY HARVESTING IN PHOTOVOLTAIC SYSTEMS, CRC PRESS 2012.
PAPERS AND OTHER TEACHING MATERIALS WILL BE MADE AVAILABLE THROUGH THE COURSE WEBSITE.
More Information
THE COURSE IS TAUGHT FACE-TO-FACE IN ENGLISH.
  BETA VERSION Data source ESSE3 [Ultima Sincronizzazione: 2019-10-21]