Nevşehir Hacı Bektaş Veli University Course Catalogue

Information Of Programmes

VOCATIONAL SCHOOL OF HACI BEKTAŞ VELİ / ENR210 - ELECTRICAL ENERGY GENERATION, TRANSMISSION AND DISTRIBUTION

Code: ENR210 Course Title: ELECTRIC VEHICLES Theoretical+Practice: 2+1 ECTS: 4
Year/Semester of Study 2 / Spring Semester
Level of Course Short Cycle Degree Programme
Type of Course Optional
Department ELECTRICAL ENERGY GENERATION, TRANSMISSION AND DISTRIBUTION
Pre-requisities and Co-requisites None
Mode of Delivery Face to Face
Teaching Period 14 Weeks
Name of Lecturer ENSAR KOŞATEPE (ensar.kosatepe@nevsehir.edu.tr)
Name of Lecturer(s) ENSAR KOŞATEPE,
Language of Instruction Turkish
Work Placement(s) None
Objectives of the Course
To have professional knowledge and skills in electric vehicles.

Learning Outcomes PO MME
The students who succeeded in this course:
LO-1 Having professional knowledge and skills in the next generation power systems PO-39 Have knowledge about electric vehicles.
 		Examination
LO-2 Practical application skills are strong, ability to research, analyze and synthesize by continually renewing knowledge and skill PO-39 Have knowledge about electric vehicles.
 		Examination
LO-3 Select and use the necessary tools for applications PO-39 Have knowledge about electric vehicles.
 		Examination
PO: Programme Outcomes
MME:Method of measurement & Evaluation

Course Contents
History of electric vehicles and comparison with traditional vehicles. Energy sources and energy storage devices; Batteries, fuel batteries, high-capacity capacitors. Energy conversion systems, motor types, torque-speed characteristics and control techniques. Basic variables and design software in electric vehicle design. Motion and power control systems in electric vehicles. Electric vehicle models (battery, hybrid and fuel battery).
Weekly Course Content
Week Subject Learning Activities and Teaching Methods
1 Comparison of history of electric vehicles and internal combustion motor vehicles Narration, Question and Answer, Group work, Skill development work.
2 Energy sources and energy storage devices, batteries, fuel cells, high power capacitors Narration, Question and Answer, Group work, Skill development work.
3 Chemical energy conversion of electrical energy and electrical storage of lead, nickel, sodium, lithium and aluminum based batteries. Narration, Question and Answer, Group work, Skill development work.
4 Fuel pipes Narration, Question and Answer, Group work, Skill development work.
5 High Capacity Capacitors Narration, Question and Answer, Group work, Skill development work.
6 Energy conversion systems, electric motors, dc motors and characteristics Narration, Question and Answer, Group work, Skill development work.
7 AC motors and characteristics Narration, Question and Answer, Group work, Skill development work.
8 mid-term exam
9 Torque velocity characteristics and control techniques Narration, Question and Answer, Group work, Skill development work.
10 Basic variables and software in electric vehicle design Narration, Question and Answer, Group work, Skill development work.
11 Electric vehicle motion control and energy management systems Narration, Question and Answer, Group work, Skill development work.
12 Electric vehicles with battery Narration, Question and Answer, Group work, Skill development work.
13 Hybrid electric vehicles Narration, Question and Answer, Group work, Skill development work.
14 Electric vehicles with fuel cell Narration, Question and Answer, Group work, Skill development work.
15 Economical comparison of electric vehicles and future development Narration, Question and Answer, Group work, Skill development work.
16 final exam
Recommend Course Book / Supplementary Book/Reading
1 HUSAIN, I., ELECTRIC AND HYBRID VEH. 2003 - MILLER,J.M., PROPULSION SYS FOR HYBRID VEH. IEE. 2004. - ÜNLÜ, N., ELEKTRIKLI ARAÇLAR, TÜBİTAK MAM,
Required Course instruments and materials
Projection, Computer

Assessment Methods
Type of Assessment Week Hours Weight(%)
mid-term exam 8 1 40
Other assessment methods
1.Oral Examination
2.Quiz
3.Laboratory exam
4.Presentation
5.Report
6.Workshop
7.Performance Project
8.Term Paper
9.Project
final exam 16 1 60

Student Work Load
Type of Work Weekly Hours Number of Weeks Work Load
Weekly Course Hours (Theoretical+Practice) 3 14 42
Outside Class
       a) Reading 4 7 28
       b) Search in internet/Library 4 8 32
       c) Performance Project 0
       d) Prepare a workshop/Presentation/Report 0
       e) Term paper/Project 0
Oral Examination 0
Quiz 0
Laboratory exam 0
Own study for mid-term exam 2 5 10
mid-term exam 1 1 1
Own study for final exam 2 3 6
final exam 1 1 1
0
0
Total work load; 120