Didattica
A.A. 2021/2022
ELECTRICAL ENERGY FOR AEROSPACE:GENERATION AND POWER MANAGEMENT (MOD.1)
Corso di laurea AEROSPACE ENGINEERING
Tipo corso di studio Laurea Magistrale
Crediti 6.0
Ripartizione oraria Ore totali di attività frontale: 54.0
Anno accademico di erogazione 2021/2022
Per immatricolati nel 2021/2022
Anno di corso 1
Struttura DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE
Percorso CURRICULUM AEROSPACE SYSTEMS
A.A. 2020/2021
DESIGN AND TESTING OF POWER CONVERTERS AND ELECTRICAL MACHINES
Degree course AEROSPACE ENGINEERING
Course type Laurea Magistrale
Language INGLESE
Credits 6.0
Teaching hours Ore totali di attività frontale: 54.0
Year taught 2020/2021
For matriculated on 2020/2021
Course year 1
Structure DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE
Subject matter CURRICULUM AEROSPACE SYSTEMS
Location Brindisi
A.A. 2019/2020
DESIGN AND TESTING OF POWER CONVERTERS AND ELECTRICAL MACHINES
Degree course AEROSPACE ENGINEERING
Course type Laurea Magistrale
Language INGLESE
Credits 6.0
Teaching hours Ore totali di attività frontale: 54.0
Year taught 2019/2020
For matriculated on 2019/2020
Course year 1
Structure DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE
Subject matter SYSTEMS
Location Brindisi
DESIGN AND TESTING OF POWER CONVERTERS AND ELECTRICAL MACHINES C.I.
Degree course AEROSPACE ENGINEERING
Course type Laurea Magistrale
Language INGLESE
Credits 5.0
Teaching hours Ore totali di attività frontale: 45.0
Year taught 2019/2020
For matriculated on 2018/2019
Course year 2
Structure DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE
Subject matter AEROSPACE ENGINEERING SYSTEMS
ELECTRICAL ENERGY FOR AEROSPACE:GENERATION AND POWER MANAGEMENT (MOD.1)
Corso di laurea AEROSPACE ENGINEERING
Settore Scientifico Disciplinare ING-IND/32
Tipo corso di studio Laurea Magistrale
Crediti 6.0
Ripartizione oraria Ore totali di attività frontale: 54.0
Per immatricolati nel 2021/2022
Anno accademico di erogazione 2021/2022
Anno di corso 1
Semestre Primo Semestre (dal 20/09/2021 al 17/12/2021)
Lingua
Percorso CURRICULUM AEROSPACE SYSTEMS (A111)
Fundamentals of physics.
Fundamentals of electrotechnics.
Fundamentals of electric measurements theory.
The course introduces the main components of an aeronautical electrical system, with a particular focus on power electronics converters and electrical machines.
At the end of the course the student will know the main aeronautical electrical system components used to generate and distribute the electrical energy on board. The autonomy of judgment will be developed by the critical analysis of simulations\experimental results. The part of the course dedicated to the exercises includes group work aimed at strengthening technical and soft skills. Communication skills and learning abilities will also be verified during the oral examination.
Whole class teaching (lectures).
Computer-aided simulations and laboratory experiences.
Oral exam (plus written report on the laboratory experiences)
M. Rashid: “Power electronics Devices, circuits and applications” – Pearson
N. Mohan, T. Undeland, W. Robbins: “Power Electronics: Converters, Applications and Design” – Wiley
A. Fitzgerald: “Electric machinery” – Mc Graw Hill
G. Conte: “Macchine elettriche” - Hoepli
I. Moir, A. Seabridge “Aircraft Systems: Mechanical, Electrical and Avionics Subsystems Integration” – Wiley.
USA Department of Transportation, Federal Aviation Administration, “Aviation Maintenance Technician Handbook”
ELECTRICAL ENERGY FOR AEROSPACE:GENERATION AND POWER MANAGEMENT (MOD.1) (ING-IND/32)
DESIGN AND TESTING OF POWER CONVERTERS AND ELECTRICAL MACHINES
Degree course AEROSPACE ENGINEERING
Subject area ING-IND/32
Course type Laurea Magistrale
Credits 6.0
Teaching hours Ore totali di attività frontale: 54.0
For matriculated on 2020/2021
Year taught 2020/2021
Course year 1
Semestre Primo Semestre (dal 22/09/2020 al 18/12/2020)
Language INGLESE
Subject matter CURRICULUM AEROSPACE SYSTEMS (A111)
Location Brindisi
Fundamentals of physics.
Fundamentals of electrotechnics.
Fundamentals of electric measurements theory.
The course introduces the main components of an aeronautical electrical system, with a particular focus on power electronics converters and electrical machines.
At the end of the course the student will know the main aeronautical electrical system components used to generate, distribute and consume the electric energy on board the aircraft. The autonomy of judgment will be developed both by deepening the design of the experiments and by the critical analysis of experimental data. The part of the course dedicated to the exercises includes group work. Communication skills and learning abilities will also be verified during the oral examination.
Whole class teaching (lectures).
Computer-aided simulations and laboratory experiences.
Oral exam (plus written report on the laboratory experiences)
Introduction, electric power evolution in aircraft electrical systems and main components of the electrical system.
AC\DC electric power conversion.
DC\DC electric power conversion.
DC\AC electric power conversion.
DC Electrical machines (generators\motors)
AC Electrical machines (generators\motors)
Standards for testing aeronautical electrical and electronic components and documentation for the qualification of an aeronautical devices
Laboratory experiences
Computer-aided modeling, simulation and analysis of power converters
Computer-aided modeling, simulation and analysis of electrical machines
M. Rashid: “Power electronics Devices, circuits and applications” – Pearson
N. Mohan, T. Undeland, W. Robbins: “Power Electronics: Converters, Applications and Design” – Wiley
A. Fitzgerald: “Electric machinery” – Mc Graw Hill
G. Conte: “Macchine elettriche” - Hoepli
I. Moir, A. Seabridge “Aircraft Systems: Mechanical, Electrical and Avionics Subsystems Integration” – Wiley.
USA Department of Transportation, Federal Aviation Administration, “Aviation Maintenance Technician Handbook”
DESIGN AND TESTING OF POWER CONVERTERS AND ELECTRICAL MACHINES (ING-IND/32)
DESIGN AND TESTING OF POWER CONVERTERS AND ELECTRICAL MACHINES
Degree course AEROSPACE ENGINEERING
Subject area ING-IND/32
Course type Laurea Magistrale
Credits 6.0
Teaching hours Ore totali di attività frontale: 54.0
For matriculated on 2019/2020
Year taught 2019/2020
Course year 1
Semestre Secondo Semestre (dal 02/03/2020 al 05/06/2020)
Language INGLESE
Subject matter SYSTEMS (A100)
Location Brindisi
Fundamentals of physics.
Fundamentals of electrotechnics.
Fundamentals of electric measurements theory.
The course introduces the main components of an aeronautical electrical system, with a particular focus on power electronics converters and electrical machines.
At the end of the course the student will know the main aeronautical electrical system components used to generate, distribute and consume the electric energy on board the aircraft. The autonomy of judgment will be developed both by deepening the design of the experiments and by the critical analysis of experimental data. The part of the course dedicated to the exercises includes group work. Communication skills and learning abilities will also be verified during the oral examination.
Whole class teaching (lectures).
Computer-aided simulations and laboratory experiences.
Oral exam (plus written report on the laboratory experiences)
Introduction, electric power evolution in aircraft electrical systems and main components of the electrical system.
AC\DC electric power conversion.
DC\DC electric power conversion.
DC\AC electric power conversion.
DC Electrical machines (generators\motors)
AC Electrical machines (generators\motors)
Standards for testing aeronautical electrical and electronic components and documentation for the qualification of an aeronautical devices
Laboratory experiences
Computer-aided modeling, simulation and analysis of power converters
Computer-aided modeling, simulation and analysis of electrical machines
M. Rashid: “Power electronics Devices, circuits and applications” – Pearson
N. Mohan, T. Undeland, W. Robbins: “Power Electronics: Converters, Applications and Design” – Wiley
A. Fitzgerald: “Electric machinery” – Mc Graw Hill
G. Conte: “Macchine elettriche” - Hoepli
I. Moir, A. Seabridge “Aircraft Systems: Mechanical, Electrical and Avionics Subsystems Integration” – Wiley.
USA Department of Transportation, Federal Aviation Administration, “Aviation Maintenance Technician Handbook”
DESIGN AND TESTING OF POWER CONVERTERS AND ELECTRICAL MACHINES (ING-IND/32)
DESIGN AND TESTING OF POWER CONVERTERS AND ELECTRICAL MACHINES C.I.
Degree course AEROSPACE ENGINEERING
Subject area ING-IND/32
Course type Laurea Magistrale
Credits 5.0
Teaching hours Ore totali di attività frontale: 45.0
For matriculated on 2018/2019
Year taught 2019/2020
Course year 2
Semestre Secondo Semestre (dal 02/03/2020 al 05/06/2020)
Language INGLESE
Subject matter AEROSPACE ENGINEERING SYSTEMS (A89)
Fundamentals of physics.
Fundamentals of electrotechnics.
Fundamentals of electric measurements theory.
The course introduces the main components of an aeronautical electrical system, with a particular focus on power electronics converters and electrical machines.
At the end of the course the student will know the main aeronautical electrical system components used to generate, distribute and consume the electric energy on board the aircraft. The autonomy of judgment will be developed both by deepening the design of the experiments and by the critical analysis of experimental data. The part of the course dedicated to the exercises includes group work. Communication skills and learning abilities will also be verified during the oral examination.
Whole class teaching (lectures).
Computer-aided simulations and laboratory experiences.
Oral exam (plus written report on the laboratory experiences)
Introduction, electric power evolution in aircraft electrical systems and main components of the electrical system.
AC\DC electric power conversion.
DC\DC electric power conversion.
DC\AC electric power conversion.
DC Electrical machines (generators\motors)
AC Electrical machines (generators\motors)
Standards for testing aeronautical electrical and electronic components and documentation for the qualification of an aeronautical devices
Laboratory experiences
Computer-aided modeling, simulation and analysis of power converters
Computer-aided modeling, simulation and analysis of electrical machines
M. Rashid: “Power electronics Devices, circuits and applications” – Pearson
N. Mohan, T. Undeland, W. Robbins: “Power Electronics: Converters, Applications and Design” – Wiley
A. Fitzgerald: “Electric machinery” – Mc Graw Hill
G. Conte: “Macchine elettriche” - Hoepli
I. Moir, A. Seabridge “Aircraft Systems: Mechanical, Electrical and Avionics Subsystems Integration” – Wiley.
USA Department of Transportation, Federal Aviation Administration, “Aviation Maintenance Technician Handbook”
DESIGN AND TESTING OF POWER CONVERTERS AND ELECTRICAL MACHINES C.I. (ING-IND/32)
Temi di ricerca
Electrical machines