Iğdır University Lifelong Learning Programme

Description of Individual Course Units

Course Unit Code	Course Unit Title	Type of Course Unit	Year of Study	Semester	Number of ECTS Credits
180103003101	ELECTROMAGNETICS ENERGY CONVERSION	Compulsory	2	3	4

Level of Course Unit

First Cycle

Objectives of the Course

1. To teach the concepts and related laws used in electromechanical energy conversion 2. To teach the operational principles of electromechanical energy conversion devices 3. To teach the analysis methods for electromechanical energy conversion systems.

Name of Lecturer(s)

Doç. Dr. Serkan DEMİREL

Learning Outcomes

1. Have a general knowledge on electromechanical energy conversion, 2. Have a broad knowledge on energy conversion laws and concepts, 3. Identify energy conversion devices, and explain their operational principles, 4. Formulate electromechanical energy conversion systems, 5. Analyze electromechanical energy conversion systems.

Mode of Delivery

Daytime Class

Prerequisites and co-requisities

None

Recommended Optional Programme Components

Course Contents

Magnetic circuits and flux, properties of magnetic materials and losses, skin and proximity effects, permanent magnet types and their properties, analysis of magnetic circuits with permanent magnets, fundamental laws related to electromagnetic fields, transformers, phasor diagrams, equivalent-circuit parameters, force developed on a current-carrying conductor in magnetic field, induced voltage along a conductor moving in magnetic field, linear dc motor, conservation of energy and energy balance equation, the relationships between magnetic or electric field and force or torque, magneto motor force (MMF) developed in windings of rotating machines, induced voltage and developed torque in AC and DC machines.

Weekly Detailed Course Contents

Week	Theoretical	Practice	Laboratory
1	Week#1: Introduction Week#1: Magnetic Circuits Week#2: Magnetic Circuits2 Week#2: Magnetic losses Week#3: AC Excitation, Mutual Inductance Week#3: Permanent Magnets Week#4: Magnetic Energy Week#5: Ideal Transformers Week#5: Practical Transformers Week#6: No Load-Short Circuit Tests Week#7: Voltage Regulation-Efficiency Week#8: Three Phase Transformers Week#8: Recitation Hour Week#10: Electromechanical Energy Conversion Week#11: Virtual Work-Examples Week#12: Multiply-Excited Systems Week#13: DC Machines Week#13: MT-II Recitation Week#13: DC Motors and Generators Week#14: Speed Control of DC Motors Week#14: DC Machine Problems

Recommended or Required Reading

Elektrik Makinalarının Temelleri, Prof. Dr. M. Kemal SARIOĞLU, İTÜ, 1990. Enerji Dönüşümünün Temelleri, Prof. Dr. Cemil GÜRÜNLÜ, KTÜ, 1989. Performance and Control of Electrical Machines, Denis O’KELLY, 1991. Electromechanics and Electric Machines, S. A. NASAR and L. E. UNNEWEHR, 1976. Principles of Electric Machines with Power Electronic Applications, Mohamed E. EL-HAWARY, 1986. Electic Machines, D.P. Kothari, I.J. Nagrath, 2004.

Planned Learning Activities and Teaching Methods

Assessment Methods and Criteria

Term (or Year) Learning Activities	Quantity	Weight
Midterm Examination	1	100
SUM		100
End Of Term (or Year) Learning Activities	Quantity	Weight
Final Examination	1	100
SUM		100
Term (or Year) Learning Activities		40
End Of Term (or Year) Learning Activities		60
SUM		100

Language of Instruction

Turkish

Work Placement(s)

None

Workload Calculation

Activities	Number	Time (hours)	Total Work Load (hours)
Midterm Examination	1	2	2
Final Examination	1	3	3
Attending Lectures	14	3	42
Self Study	14	3	42
Individual Study for Mid term Examination	1	10	10
Individual Study for Final Examination	2	10	20
TOTAL WORKLOAD (hours)			119

Contribution of Learning Outcomes to Programme Outcomes

PO
1

PO
2

PO
3

PO
4

PO
5

PO
6

PO
7

PO
8

PO
9

PO
10

PO
11

PO
12

PO
13

PO
14

LO1

* Contribution Level : 1 Very low 2 Low 3 Medium 4 High 5 Very High