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MAK 4009E
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Course Information
Course Name
Turkish
Elektrikli ve Hibrit Elektrikli Taşıtlar
English
Electric and Hybrid Electric Vehicles
Course Code
MAK 4009E
Credit
Lecture
(hour/week)
Recitation
(hour/week)
Laboratory
(hour/week)
Semester
7
-
2
1
-
Course Language
English
Course Coordinator
Orhan Atabay
Course Objectives
To provide essential knowledge on alternative propulsion systems for ground vehicles.
To give detailed presentations on different configurations of electric and hybrid electric vehicles, operating principles, design, modeling, simulation and optimization of electric vehicle subsystems.
Course Description
The course deals with the fundamentals, theory, and design of electric vehicles (EVs), hybrid electric vehicles (HEVs), and fuel cell vehicles (FCVs). It presents vehicle configurations, control strategies, design methodologies, performance, modeling, and simulation for different conventional and modern vehicles. The course includes design methodologies and examples as well as simulation models for alternative propulsion systems of ground vehicles. It covers important sub-topics like electric machines, energy storage systems, regenerative braking and vehicle ancillary systems.
Course Outcomes
This course will provide,
1. an overview of todays sustainable mobility requirements and solution techniques through automotive research
2. an advanced knowledge on electric and hybrid electric vehicle configurations,
3. a fundamental knowledge about on-board energy storage systems
4. an essential knowledge on electric machines for automotive applications
Pre-requisite(s)
Required Facilities
Other
• 70 % attendance to classes is a requirement to take the final exam.
• Make-up exams shall only be conducted upon the decision of the Faculty of Mechanical Engineering.
• Semester average grades less than 35 get a FF.
• Semester average grades less than 80 cannot get an AA as letter grade.
Textbook
- “Modern electric, hybrid electric, and fuel cell vehicles : fundamentals, theory, and design” Mehrdad Ehsani ... [et al.] Imprint Boca Raton : CRC Press, 2005
- “Electric vehicle technology explained” James Larminie, John Lowry Imprint Hoboken, NJ : Wiley, 2004
Other References
- “Electric and Hybrid Electric Vehicles” Lecture Notes, Orhan ATABAY, 2014
- “Electric and hybrid cars : a history” Curtis D. Anderson and Judy Anderson Imprint Jefferson, N.C. : McFarland, 2010
- “Electric vehicles : technology, research and development” Gerald B. Raines, editor Imprint New York : Nova Science, 2009
- “Two Billion Cars Driving Toward Sustainability” Daniel Sperling, Deborah Gordon, Oxford University Press, 2009
- “Hybrid gasoline-electric vehicle development” edited by John M. German Imprint Warrendale, PA : Society of Automotive Engineers, 2005
- “Propulsion systems for hybrid vehicles” John M. Miller Imprint Stevenage, UK : Institution of Electrical Engineers, 2004
- “Lightweight electric/hybrid vehicle design” Ron Hodkinson and John Fenton Imprint Oxford ; Woburn, MA : Butterworth-Heinemann, 2001
- “Solar Cells and Their Applications” Lewis Fraas, Larry Partain, John Wiley & Sons, 2010
- “Industrial applications of batteries, From cars to aerospace and energy storage” edited by M. Broussely and G. Pistoia, Imprint Amsterdam ; London : Elsevier, 2007
- “Konventioneller Antriebsstrang und Hybridantriebe”, Konrad Reif, Vieweg & Teubner, 2010
- “Strategien zur Elektrifizierung des Antriebstranges” Henning Wallentowitz, Arndt Freialdenhoven, Ingo Olschewski, Vieweg & Teubner, 2010
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