ELETTRONICA DI POTENZA PER LA CONVERSIONE DELL'ENERGIA

Ingegneria Elettronica ELETTRONICA DI POTENZA PER LA CONVERSIONE DELL'ENERGIA

0622400028
DIPARTIMENTO DI INGEGNERIA INDUSTRIALE
ELECTRONIC ENGINEERING
2014/2015

OBBLIGATORIO
YEAR OF COURSE 1
YEAR OF DIDACTIC SYSTEM 2012
SECONDO SEMESTRE
CFUHOURSACTIVITY
12120LESSONS
Objectives
THE COURSE AIMS TO LEARNING MODELS AND METHODS FOR THE DESIGN OF ELECTRONIC POWER CONVERTERS AND OF METHODS FOR THE CONTROL AND CONVERSION OF ELECTRIC ENERGY WITH HIGH EFFICIENCY.
THE COURSE AIMS TO PROVIDE, ALSO, SKILLS FOR SIZING OF DC AND AC DRIVES FOR INDUSTRIAL APPLICATIONS, AUTOMOTIVE (INCLUDING CHARGING STATIONS FOR ELECTRIC VEHICLES) AND RAYLWAYS SYSTEMS. IT PROVIDES SKILLS FOR THE DESIGN, IMPLEMENTATION AND CONTROL OF CONVERTERS CONNECTING TO ELECTRIC GRID RENEWABLE SOURCES, STATISTIC COMPENSATORS (FACTS, SVC, SUPERCAPACITORS), ENERGY STORAGE SYSTEMS AND UPS. WITH REFERENCE TO RENEWABLE ENERGIES, THE COURSE PROVIDES USEFUL TOOLS FOR MODELING ANALYSIS AND DESIGN OF POWER CIRCUITS AND CONTROL SYSTEMS FOR INVERTER, RETIFIERS AND DC-DC CONVERTERS.
FINALLY, THROUGH LABORATORY EXPERIENCES, THE COURSE AIMS TO FURNISH TO THE STUDENTS ABILITY IN THE EVALUATION OF POWER SYSTEMS IN REAL CONDITION OF USE.
KNOWLEDGE AND UNDERSTANDING: UNDERSTANDING OF THE METHODOLOGIES FOR THE ANALYSIS AND THE DESIGN OF POWER CONVERTERS FOR INDUSTRIAL APPLICATIONS, TRANSPORTS, POWER AND ENERGY MANAGEMENT. SYNTHESIS OF PROTECTION CIRCUITS FOR POWER ELECTRONIC DEVICES. INTRODUCTION TO ELECTROMAGNETIC COMPATIBILITY IN POWER ELECTRONICS. UNDERSTANDING OF ELECTRO-MECHANICAL ENERGY CONVERSION AND OF SOFTWARE TOOLS FOR THE ANALYSIS AND SYNTHESIS OF AC AND DC DRIVES AND MORE GENERALLY, FOR ISSUES RELATED TO THE COUPLING ELECTRIC MACHINES WITH POWER ELECTRONIC CONVERTER.
APPLIED KNOWLEDGE AND UNDERSTANDING: KNOWING TO SIZE POWER ELECTRONIC CONVERTERS AND ELECTRIC DRIVES WITH RELATED CONTROL SYSTEMS IN REAL OPERATING CONDITIONS. KNOWING TO DESIGN AND INTERFACE ELECTRONIC CONVERTERS TO THE GRIDS. KNOWING TO SIZE, DESIGN AND CONTROL POWER ELECTRONIC CONVERTERS TO INTERFACE WITH ACTIVE LOADS (SUCH AS ENERGY STORAGE SYSTEMS) AND GENERATORS FROM RENEWABLE SOURCE TO ELECTRIC GRIDS. KNOWING TO DESIGN ELECTRONIC SYSTEMS FOR THE POWER ND ENERGY MANAGEMENT FOR HOME AUTOMATATION, AUTOMOTIVE AND RAILWAY APPLICATIONS. SIZING CHARGING SYSTEMS FOR ELECTRIC VEHICLES.
PERSONAL JUDGEMENTS: KNOWING TO IDENTIFY THE MOST APPROPRIATE DEVICES, METHODS, AND SOFTWARE TOOLS FOR THE DESIGN, CONTROL AND IMPLEMENTATION OF POWER ELECTRONIC CONVERTERS FOR ENERGY MANAGEMENT APPLICATIONS IN CIVIL, INDUSTRIAL AND TRANSPORT AREA.
COMMUNICATION SKILLS: ABILITY TO THE TEAM-WORK AND TO DISCUSS AUTONOMOUSLY ON INDUSTRIAL AUTOMATION FOR INDUSTRIAL AND POWER SYSTEM APPLICATIONS. TO BE ABLE TO PRESENT AND DISCUSS DESIGN CHOICES REGARDING THE TYPE OF CONVERTER, DRIVE AND CONTROL SYSTEM.
LEARNING SKILLS: BE ABLE TO APPLY THE ACQUIRED KNOWLEDGE IN DIFFERENT CONTEXTS FROM THOSE PRESENTED DURING THE COURSE, AND TO READ EFFECTIVELY TECHNICAL MANUALS ON COMPONENTS, POWER ELECTRONICS AND STATIC CONVERSION SYSTEMS FOR MEDIUM AND HIGH POWER APPLICATIONS, ALSO IN ENGLISH.
Prerequisites
FOR THE SUCCESSFUL ACHIEVEMENT OF OBJECTIVES IS REQUIRED KNOWLEDGE OF ELECTRICAL ENGINEERING AND ELECTRONIC.
Contents
• INTRODUCTION: SUMMARY OF POWER ELECTRONIC COMPONENTS AND OF CONTROL AND PROTECTION SYSTEMS AND DEVICES. GENERAL INFORMATION ABOUT CONVERSION CIRCUITS (LECTURE/TUTORIAL/LABORATORY HOURS 2/-/-)

• ELECTRONIC CONVERTERS: SUMMARY OF SINGLE-PHASE AND THREE-PHASE DIODE RECTFIER HALF-WAVE AND FULL WAVE. MULTIPHASE RECTFIER. SINGLE PHASE AND THREE-PHASE THRYSTOR CONVERTER FULL WAVE. RECTIFIERS AND CONVERTERS IN REAL OPERATING CONDITIONS. SEMI-CONTROLLED BRIDGES. SUMMARY OF DC/DC CONVERTERS. FULL BRIDGE DC-DC: PWM MODULATION UNIPOLAR AND BIPOLAR MODULATION. VOLTAGE SOURCE INVERTER - VSI. CURRENT SOURCE INVERTER - CSI. ANALYTICAL METHODS FOR CONVERTERS: STATE-SPACE AVERAGING REPRESENTATION METHOD. ANALYSIS AND DESIGN OF ELECTRONIC CONVERTERS SIZING. SIMULATION WITH PSIM/MATLAB. (LECTURE/TUTORIAL/LABORATORY HOURS 12/6/6)

• SPECIAL CONVERTERS: GENERAL INFORMATION ABOUT RESONANT CONVERTERS: CONVERTER WITH RESONANT LOAD; SWITCH RESONANT CONVERTER, VOLTAGE ZERO TOPOLOGIES AND ZERO CURRENT SWITCHING AND CLAMPED VOLTAGE; CLASS E CONVERTER; CYCLOCONVERTERS. MULTILEVEL CONVERTERS (LECTURE/TUTORIAL/LABORATORY HOURS 10/-/4)

• AUXILIARY AND PROTECTION CIRCUITS: SNUBBER CIRCUITS. CURRENT AND VOLTAGE SHUTDOWN CIRCUITS. CONTROL CIRCUITS FOR THYRISTORS, IGBT E POWERMOS. ELECTROMAGNETIC COMPATIBILITY IN THE STATIC CONVERSION OF ENERGY ELEMENTS. (LECTURE/TUTORIAL/LABORATORY HOURS 6/2/6)

• CONTROL TECHNIQUES FOR CONVERTERS: SUMMARY OF PWM AND SQUARE WAVE CONTROL. CONTROL TECNIQUES OF HARMONIC CANCELLATION. CONTROL TECNIQUES FOR INVERTER AND DC/DC IMPRESSED CURRENT CONVERTER. DIRECT TORQUE CONTROL (DTC) FIEL ORIENTED CONTROL (FOC). DESIGN AND IMPLEMETATION ON MICROCONTROLLER IN LABORATORY OF A CONTROL SYSTEM FOR THREE-PHASE AC DRIVE. SIMULATION WITH PSIM/MATLAB (LECTURE/TUTORIAL/LABORATORY HOURS 12/-/6)

• APPLICATIONS FOR INDUSTRY AND TRANSPORTATION: GENERAL INFORMATION ABOUT ELECTRICAL DEVICES. CONTROL TECNIQUES OF POWER DRIVES. DC DRIVES: REGULATION OF TORQUE AND SPEED. BRUSHLESS AND STEPPER MOTORS APPLICATIONS. AC INDUCTION DRIVES. INTEGRATION OF STORAGE SYSTEMS BASED ON HETEROGENEOUS TECNOLOGIES IN THE POWER TRAIN OF RAILWAYS AND ELECTRIC VEHICLES. DESIGN CRITERIA OF POWER CONVERTERS FOR POWER AND ENERGY MANAGEMENT IN AUTOMOTIVE AND RAILWAY APPLICATIONS. ANALYSIS METHODS AND DESIGN CRITERIA OF CHARGING SYSTEMS FOR ELECTRICAL VEHICLES. (LECTURE/TUTORIAL/LABORATORY HOURS 14/-/6)

• APPLICATIONS FOR ELECTRICAL GRIDS: ELECTRONIC CONVERTER FOR INTERFACING TO THE GRID OF WIND AND PHOTOVOLTAIC GENERATORS. ELECTRONIC GENERATORS AND CONVERTERS FOR THE DUAL FEED AND SYNCHRONOUS WIND TURBINES. CONTROL TECNIQUE FOR GRID CONNECTED OR ISOLATED SYSTEMS. STORAGE SYSTEMS FOR SMART GRID: SIZING CRITERIA AND CONTROL STRATEGIES. ENERGY STORAGE SYSTEMS FOR TRANSMISSION AND DISTRIBUTION GRIDS. BENEFITS EXPECTED FROM THE INTEGRATION OF ELECTRICAL GRID STORAGE SYSTEMS WITH DISTRIBUTED GENERATION FROM RENEWABLE SOURCE. POWER ELECTRONIC SYSTEMS FOR TRANSMISSION GRIDS: HIGH VOLTAGE DIRECT CURRENT SYSTEMS AND FLEXIBLE ALTERNATIVING CURRENT TRANSMISSION SYSTEMS (HV-DC AND FACTS) (LECTURE/TUTORIAL/LABORATORY HOURS 12/-/4)

• APPLICATIONS FOR THE BUILDING AND HOME AUTOMATION: THE POWER ELECTRONICS FOR BUILDING AUTOMATION AND HOME AUTOMATION. UNINTERRUPTIBLEPOWER SUPPLIES: RECTIFIER, BATTERY, INVERTER, STATIC BYPASS SWITCH. SIZING AND DESIGN CRITERIA. LED DRIVER (LECTURE/TUTORIAL/LABORATORY HOURS 10/-/-)

TOTAL HOURS: 120 (FRONTAL LECTURE HOURS: 80; CLASSROOM TUTORIAL HOURS: 8; LABORATORY HOURS: 32)
Teaching Methods
THE COURSE CONTEMPLATES LECTURES, CLASSROOM EXERCISES AND PRACTICAL LABORATORY WORK. IN THE CLASSROOM THE STUDENTS PERFORM EXCERCISES ON THE TOPICS DISCUSSED IN THE LECTURES, WHILE IN THE LABORATORY EXCERCISES, ARE AWARDED TO THE STUDENTS, DIVIDED INTO WORKING GROUPS, PRACTICAL EXCERCISES TO BE DEVELOPED THROUGHOUT THE USE OF COMPUTER CALCULATION AND SOFTWARE PROGRAMMING. IN THE LABORATORY ARE ALSO SYNTHESIZED, PRODUCED AND TESTED CONVERTER PROTOTYPES AND AC AND DC DRIVES. THE EXCERCISES ARE INSTRUMENTAL TO THE ACQUISITION, AS WELL AS THE CAPACITY FOR DEVELOPING THE ELECTRONIC CONVERTERS, ALSO TO DEVELOP AND STRENGTHEN TO WORK IN TEAM.
Verification of learning
THE FINAL EXAM IS DESIGNED TO EVALUATE AS A WHOLE: THE KNOWLEDGE AND UNDERSTANDING OF THE CONCEPTS PRESENTED IN THE COURSE, THE ABILITY TO APPLY THAT KNOWLEDGE TO SOLVE PROBLEMS OF ANALYSIS AND SYNTHESIS IN POWER ELECTRONICS AND ENERGY AND POWER MANAGEMENT; THEIR INDEPENDENT JUDGMENT, COMMUNICATION SKILLS AND THE ABILITY TO LEARN.
THE ASSESSMENT OF THE ACHIEVEMENT OF THE OBJECTIVES WILL BE DONE THROUGH AN ORAL INTERVIEW, DURING WHICH WILL BE DISCUSSED AND ALSO ASSESSED THE PROJECT WORK PREPARED AT THE END OF THE COURSE.
THE ORAL EXAMINATION WILL FOCUS ON ALL THE COURSE TOPICS AND THE EVALUATION WILL TAKE ACCOUNT OF KNOWLEDGE DEMONSTRATED BY THE STUDENT AND THE LEVEL OF THEIR DEPTH, DEMONSTRATED LEARNING SPEAKING ABILITY QUALITY.
IN THE FINAL EVALUATION, EXPRESSED OUT OF THIRTY, THE PROJECT EVALUATION WILL ACCOUNT FOR 35% WHILE THE INTERVIEW FOR 65%. THE PRAISE MAY BE GIVEN TO STUDENTS WHO DEMONSTRATE THAT THEY CAN APPLY THE GAINED KNOWLEDGE WITH AUTONOMY EVEN IN CONTEXTS OTHER THAN THOSE PROPOSED IN THE COURSE.
Texts
SLIDES OF THE LECTURES ARE AVAILABLE ON THE WEB SITE.
N. MOHAN, T. M. UNDELAND, W. P. ROBBINS, POWER ELECTRONICS, J. WILEY & SONS.
R.S. RASMSHAW, POWER ELECTRONICS SEMICONDUCTOR SWITCHES, SECOND EDITION, CHAPMALL & HALL.
PRESSMAN, SWITCHING POWER SUPPLY DESIGN, MC GRAW HILL.
M.H. RASHID, POWER ELECTRONICS: CIRCUITS, DEVICES AND APPLICATIONS, PRENTICE HALL.
R. MARCONATO, SISTEMI ELETTRICI DI POTENZA, EDIZ. CLUP
E. FITZGERALD, C. KINGSLEY, A. KUSKO, MACCHINE ELETTRICHE, EDIZ. FRANCO-ANGELI
N. JENKINS, R. ALLAN, P. CROSSLEY, D. KIRSCHEN, G. STRBAC, “EMBEDDED GENERATION”, IEE.
T. ACKERMANN, “WIND POWER IN POWER SYSTEMS”, WILEY.
CHRISTOPHER D. RAHN, CHAO-YANG WANG, “BATTERY SYSTEMS ENGINEERING”, WILEY.
ROBERT BOSCH GMBH, “BOSCH AUTOMOTIVE ELECTRICS AND AUTOMOTIVE ELECTRONICS: SYSTEMS AND COMPONENTS, NETWORKING AND HYBRID DRIVE”, SPRINGER VIEWEG.
ALI EMADI, HANDBOOK OF AUTOMOTIVE POWER ELECTRONICS AND MOTOR DRIVES (ELECTRICAL AND COMPUTER ENGINEERING), CRC PRESS.
MUHAMMAD RASHID, POWER ELECTRONICS HANDBOOK (THIRD EDITION), BUTTERWORTH-HEINEMANN.
GIANFRANCO PISTOIA, ELECTRIC AND HYBRID VEHICLES: POWER SOURCES, MODELS, SUSTAINABILITY, INFRASTRUCTURE AND THE MARKET, ELSEVIER.
ANDREI TER-GAZARIAN, ENERGY STORAGE FOR POWER SYSTEMS, THE INSTITUTION OF ENGINEERING AND TECHNOLOGY.
MEHRDAD EHSANI, YIMIN GAO, ALI EMADI, MODERN ELECTRIC, HYBRID ELECTRIC, AND FUEL CELL VEHICLES: FUNDAMENTALS, THEORY, AND DESIGN, CRC PRESS.
ROBERT HUGGINS, ENERGY STORAGE, SPRINGER VIEWEG.
More Information
TEACHING IS DELIVERED IN THE PRESENCE. THE LANGUAGE IS ITALIAN.
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