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FUNDAMENTALS OF ELECTRICAL ENERGY and ELECTRICAL NETWORKS FOR ENERGY

Degree course Environmental Enginnering
Curriculum PRODUZIONE DI ENERGIA A BASSO IMPATTO AMBIENTALE
Learnings Orientamento unico
Academic Year 2016/2017

Module: FUNDAMENTALS OF ELECTRICAL ENERGY

Degree course Environmental Enginnering
Curriculum PRODUZIONE DI ENERGIA A BASSO IMPATTO AMBIENTALE
Learnings Orientamento unico
Academic Year 2016/2017
ECTS 3
Scientific Disciplinary Sector ING-IND/31
Year First year
Time unit Second semester
Class hours 24
Educational activity Related and integrative training activities

Single group

Professor FABIO LA FORESTA
Objectives The course aims to deepen the understanding of electrical circuits through the principles discussion, components and systems. The conceptual contents and methodological aspects are supported by references to the applications. The course consists of a module of Fundamentals of Electrical Energy (3 ECTS) followed by a module of Electrical Networks for Energy (6 ECTS). The module of Fundamentals of Electrical Energy treats the methodological tools for the study of electrical circuits in order to analyze electrical networks in steady conditions. The module of Electrical Networks for Energy explores the methodological tools for the study of three-phase circuits and introduces the basic elements for electrical safety.
Programme DC NETWORK ANALYSIS (1 ECTS)
Circuit Elements. Ohm’s Law. Kirchhoff’s Laws. Series Resistors and the Voltage Divider Rule. Parallel Resistors and the Current Divider Rule. Star-Delta connection. Millman’s Theorem. Electric Power and Sign Convention. The Principle of Superposition. Thévenin and Norton Equivalent Circuits.

AC NETWORK ANALYSIS (2 ECTS)
Electric Circuits in sinusoidal steady-state. Energy and Power in the sinusoidal steady-state. Instantaneous and Average Power. Complex Power. Conservation of Complex Power. Circuit Energy Characterization. Coupled Inductors and Transformer. Electric Circuits in AC steady-state. Energy and Power in the AC steady-state.
Books L. O. Chua, C. A. Desoer, E. S. Kuh – Linear and Nonlinear Circuits – McGraw-Hill
G. Rizzoni, Principles and Applications of Electrical Engineering 5/e.
Traditional teaching method Yes
Distance teaching method No
Mandatory attendance No
Written examination evaluation Yes
Oral examination evaluation No
Aptitude test evaluation No
Project evaluation No
Internship evaluation No
Evaluation in itinere No
Practice Test No

Further information

No document in this course
No news posted
No class timetable posted

Module: ELECTRICAL NETWORKS FOR ENERGY

Degree course Environmental Enginnering
Curriculum PRODUZIONE DI ENERGIA A BASSO IMPATTO AMBIENTALE
Learnings Orientamento unico
Academic Year 2016/2017
ECTS 6
Scientific Disciplinary Sector ING-IND/31
Year First year
Time unit Second semester
Class hours 48
Educational activity Related and integrative training activities

Single group

Professor FABIO LA FORESTA
Objectives The course aims to deepen the understanding of electrical circuits through the principles discussion, components and systems. The conceptual contents and methodological aspects are supported by references to the applications. The course consists of a module of Fundamentals of Electrical Energy (3 ECTS) followed by a module of Electrical Networks for Energy (6 ECTS). The module of Fundamentals of Electrical Energy treats the methodological tools for the study of electrical circuits in order to analyze electrical networks in steady conditions. The module of Electrical Networks for Energy explores the methodological tools for the study of three-phase circuits and introduces the basic elements for electrical safety.
Programme THREE-PHASE CIRCUITS (3 ECTS)
Three-Phase Generator. Three-Phase Circuits. Balanced and Unbalanced Circuits. Interphase connection. Rotating Magnetic Field. Three-Phase Circuits Analysis. Power in Three-Phase Circuits. Power Factor. Power Measuring. Aron’s Theorem. Fortescue’s Theorem. Sequantial Analysis of Three-Phase Circuits.

ELECTRICAL SAFETY (3 ECTS)
Electric Energy Generation and Network Distribution. IEC Terminology. Overcurrent and Overvoltage. Electrical Safety criteria. Electrical Risks. Electrical System Safety. Earthing system.
Books L. O. Chua, C. A. Desoer, E. S. Kuh – Linear and Nonlinear Circuits – McGraw-Hill
G. Rizzoni, Principles and Applications of Electrical Engineering 5/e.
Traditional teaching method Yes
Distance teaching method No
Mandatory attendance No
Written examination evaluation No
Oral examination evaluation Yes
Aptitude test evaluation No
Project evaluation Yes
Internship evaluation No
Evaluation in itinere No
Practice Test No

Further information

No document in this course
No news posted
No class timetable posted
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