1. Introduction a. History b. Introduction to different systems c. Comparison to conventional vehicles, advantages d. Current situation (technology, market, emission benefits) 2. Vehicle Dynamics and Performance Fundamentals, Modelling a. Longitudinal Dynamics b. Propulsion and Breaking c. Handling d. Ride Comfort 3. Powertrains a. Components b. Configurations i. Electric Vehicle ii. Hybrid Electric Vehicles (series, parallel, split configurations) c. Regenerative Braking 4. Batteries a. Basics/Fundamentals b. Types, differences, advantages/disadvantages c. Battery modeling d. Battery Management Systems 5. Internal Combustion Engines a. ICE fundamentals b. Types c. Fuel Economy d. Emission control 6. Alternative Energy Sources a. Fuel Cells i. Fundamentals ii. Types iii. Hydrogen Storage b. Supercapacitors and Ultracapacitors 7. Electric Motor a. DC Motors b. Induction Motors c. Switch Reluctance Motors d. Control Basics
SU Credits : 3.000
ECTS Credit : 6.000
Prerequisite :
Corequisite :
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