Electrical Machines

Données Générales
Programme Académique	ECAM LaSalle Mechanical and Electrical Engineering Programme			Responsable(s) Module : MANNAH Marc Anthony
Type d'EC : Cours	Electrical Machines (LIIEEng05EElecMachin)
TD : 14h00 TP : 8h00 Cours : 14h00 Travail personnel : 28h00 Durée totale: 64h00	Status	Periode Semester 5	Langue d'enseignement : English

Objectifs Généraux
By the end of this module, students will be able to: 1. Identify the magnetic field principle and rules. 2. Recognize the different type of DC motors and interpret their construction and performance characteristics 3. Recognise the different types of 3 phase AC machines and interpret their construction, theory, and operation 4. Develop the equivalent circuits of induction and synchronous machines 5. Compare the modes of operation of generators and motors. 6. Evaluate the starting process, speed control, torque, power, and applications of three-phase AC machines.

Objectifs Généraux

By the end of this module, students will be able to:
1. Identify the magnetic field principle and rules.
2. Recognize the different type of DC motors and interpret their construction and performance characteristics
3. Recognise the different types of 3 phase AC machines and interpret their construction, theory, and operation
4. Develop the equivalent circuits of induction and synchronous machines
5. Compare the modes of operation of generators and motors.
6. Evaluate the starting process, speed control, torque, power, and applications of three-phase AC machines.

Contenu
This course provides engineering students with in-depth knowledge of electrical machines theories. It teaches the students the necessary techniques of solving problems. The concept of magnetic field and the principle of operation of machines are covered. DC machines, their construction, their operation and their equivalent model are studied in depth. The principle of rotating magnetic field and AC machinery are underlined. AC machines including three-phase Synchronous machines and three-phase induction machines are explained. Analysis and calculations to find the voltage regulation and efficiency of a machine at a certain load are included. The different applications of each machine are studied as well. o Introduction to Machinery Principles: Rotational Notions, The Magnetic Field, Magnetic Circuit, Voltage & Torque Equations, Magnetic Losses o DC Machines Construction : Simplest DC Machine (1 loop), Armature Construction, Commutation in a 4 Loop DC Machine, Lap & Wave Windings, Problems & Solutions in Real DC Machines, Voltage & Torque Equations, Losses in DC Machines o DC Motors: Separately Excited & Shunt (Parallel) DC Motor, Series DC Motor & Compounded DC Motor, DC Motors Starting, DC Motors Applications & Test Procedures, DC Generators o Principle of Rotating Magnetic Field: Rotating Magnetic Field, Electrical & Mechanical Quantities, Magnetomotive Force and Flux Distribution, Induced Voltage & Torque in AC Machines, Winding Insulation & AC Machine Losses, Voltage Regulation & Speed Regulation o Synchronous Machines: Synchronous Generator Model, Synchronous Generator Operating Alone, Parallel Operation of Synchronous Generators, Control of Parallel Generators, Synchronous Motor Model, Synchronous Motor: Load and Field Effects, Starting Synchronous Motors o Induction Machines: Induction Motor Construction, Induction Motor Concepts & Model, IM Torque Speed Characteristic, IM Rotor Design, IM Starting, Induction Generator

Contenu

This course provides engineering students with in-depth knowledge of electrical machines theories. It teaches the students the necessary techniques of solving problems. The concept of magnetic field and the principle of operation of machines are covered. DC machines, their construction, their operation and their equivalent model are studied in depth. The principle of rotating magnetic field and AC machinery are underlined. AC machines including three-phase Synchronous machines and three-phase induction machines are explained. Analysis and calculations to find the voltage regulation and efficiency of a machine at a certain load are included. The different applications of each machine are studied as well.

o Introduction to Machinery Principles: Rotational Notions, The Magnetic Field, Magnetic Circuit, Voltage & Torque Equations, Magnetic Losses
o DC Machines Construction : Simplest DC Machine (1 loop), Armature Construction, Commutation in a 4 Loop DC Machine, Lap & Wave Windings, Problems & Solutions in Real DC Machines, Voltage & Torque Equations, Losses in DC Machines
o DC Motors: Separately Excited & Shunt (Parallel) DC Motor, Series DC Motor & Compounded DC Motor, DC Motors Starting, DC Motors Applications & Test Procedures, DC Generators
o Principle of Rotating Magnetic Field: Rotating Magnetic Field, Electrical & Mechanical Quantities, Magnetomotive Force and Flux Distribution, Induced Voltage & Torque in AC Machines, Winding Insulation & AC Machine Losses, Voltage Regulation & Speed Regulation
o Synchronous Machines: Synchronous Generator Model, Synchronous Generator Operating Alone, Parallel Operation of Synchronous Generators, Control of Parallel Generators, Synchronous Motor Model, Synchronous Motor: Load and Field Effects, Starting Synchronous Motors
o Induction Machines: Induction Motor Construction, Induction Motor Concepts & Model, IM Torque Speed Characteristic, IM Rotor Design, IM Starting, Induction Generator

Prérequis
Prerequisites: - Electrical Networks - Electrostatics and Magnetostatics Corequisite: Power Electronics

Bibliographie
Essential Resources: Chapman, S., (2011), Electric Machinery Fundamentals, 4th Edn., McGraw Hill Recommended Resources: Sen, P., (1996), Principles of Electric Machines and Power Electronics, 2nd Edition, ISBN: [0-471-02295-0], Wiley Sahdev, S., (2018), Electric Machines, Cambridge Press El Hawary, M., (2002), Principles of Electric Machines with Power Electronic Applications, 2nd Edn., John Wiley & Sons

Bibliographie

Essential Resources:
Chapman, S., (2011), Electric Machinery Fundamentals, 4th Edn., McGraw Hill

Recommended Resources:
Sen, P., (1996), Principles of Electric Machines and Power Electronics, 2nd Edition, ISBN: [0-471-02295-0], Wiley
Sahdev, S., (2018), Electric Machines, Cambridge Press
El Hawary, M., (2002), Principles of Electric Machines with Power Electronic Applications, 2nd Edn., John Wiley & Sons

Évaluation(s)
N°	Nature	Coefficient	Objectifs
1	1. Identify the magnetic field principle and rules. 2. Recognize the different type of DC motors and interpret their construction and performance characteristics	0,2	Students will be evaluated on the following abilities (1.5 hour midterm written exam): Understanding the magnetic field and its related calculations Validateingpractical skills on DC motors construction, operation and controlability
2	2. Recognize the different type of DC motors and interpret their construction and performance characteristics 6. Evaluate the starting process, speed control, torque, power, and applications of three-phase AC machines.	0,3	Students will be evaluated on the following abilities (2 experimental setups, each of 4 hours, evaluated via a report): Validating practical skills on DC and AC machines Being able to test and characterize DC, synchronous and induction machines.
3	Written exam	0,5	Students will be evaluated on the following abilities (2 hours Final written exam): Validating technical skills on the calculation of a rotating field in an AC machine. Validating technical skills on synchronous and induction machines operation, performance and controlability