Learning objectives
Provide technical and regulatory basis in the field of production, management and use of electricity, in order to make the management engineer able to appropriately interact with internal company, customers and suppliers.
Prerequisites
Mathematics
Course unit content
Ohm's law. Kirchhoff's circuit laws. CC electric networks. Electric power .Thévenin's theorem. Norton's Theorem. Millman's theorem.Alternating current. Solution of AC electric networks. Electric power (AC). Three phase systems. Transformer. Energy distribution systems, generation from renewable sources and safety principles in electric circuits.
Full programme
Ohm's law. Kirchhoff's circuit laws. CC electric networks. Electric power .Thévenin's theorem. Norton's Theorem. Millman's theorem.Alternating current. Solution of AC electric networks. Electric power (AC). Three phase systems. Transformer. Energy distribution systems, generation from renewable sources and safety principles in electric circuits.
Bibliography
I.D. Giulio Fabbricatore, " Elettrotecnica e applicazioni. Reti, macchine, misure, impianti"
Leon Freris, David Infield, Renewable Energy in Power Systems, Wiley
C. K. Alexander, M. N. O. Sadiku, ”Circuiti elettrici”, McGraw-Hill. Filippo Ciampolini, "Elettrotecnica generale" Franz J. Monssen, "Laboratorio di circuiti elettrici con OrCAD PSpice" La Fisica di Feynman volume 2 elettromagnetismo Ed. Zanichelli. Olivieri Ravelli ELETTROTECNICA per Elettrotecnica e automazione Ed. CEDAM Scuola Giorgio Rizzoni Elettrotecnica - Principi ed applicazioni 2/ed McGraw-Hill
Teaching methods
The course is based on classroom lectures. The resolution of the exercises is done by analytical methods. Pspice will be used for the analysis of electrical circuits.
Assessment methods and criteria
The exam is based on written examination
The written examination includes:
a) 2 exercises on the analysis of electrical circuits (maximum score 8 points each). Approximately 1 exercise will focus on the analysis of DC circuits and 1 on the analysis of AC circuits
b) 2 theory questions (maximum score 8 points each) on the topics covered in the course. All topics covered in the course may be required, but the questions will focus particularly on issues unverified (or not exhaustively verified) from the exercises on the analysis of electrical circuits.
Other information
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