ED4071 Design of Hybrid and Electric Vehicles Syllabus:
ED4071 Design of Hybrid and Electric Vehicles Syllabus – Anna University PG Syllabus Regulation 2021
COURSE OBJECTIVES:
1. Fundamental concepts of electric and hybrid vehicle operation and architectures.
2. Understand the properties of batteries and its types.
3. Provide knowledge about design of series hybrid electric vehicles.
4. Provide knowledge about design of parallel hybrid electric vehicles.
5. Understand of electric vehicle drive train.
UNIT– I INTRODUCTION TO ELECTRIC VEHICLES
Electric Vehicles (EV) system- EV History – EV advantages – EV market – vehicle mechanics: roadway fundamentals- law of motion-vehicle kinetics- dynamics of vehicle motion – propulsion power–velocity and acceleration-propulsion system design.
UNIT– II ENERGY SOURCE
Battery basics-lead acid battery–alternative batteries–battery parameters-technical characteristics– battery power–alternative energy sources: Fuel cells-Fuel Cell characteristics-Fuel cell types.
UNIT–III SERIES HYBRID ELECTRIC DRIVE TRAIN DESIGN
Operation Patterns- Control Strategies-Sizing of the Major Components -Design of peaking power source- Traction Motor Size – Design of the Gear Ratio-Verification of Acceleration Performance- .Verification of grade ability– Design of Engine/Generator Size – Design of the Power Capacity-Design of the Energy Capacity –Fuel Consumption.
UNIT– IV PARALLEL HYBRID ELECTRIC DRIVE TRAIN DESIGN
Control Strategies of ParallelHybridDriveTrain-DriveTrainParameters-EnginePowerCapacity- Electric Motor Drive Power Capacity-Transmission Design- Energy Storage Design
UNIT–V ELECTRIC VEHICLE DRIVE TRAIN
EV Transmission configurations–Transmission components–Ideal gear box–Gearratio-torque–speed characteristics-EV motor sizing–initial acceleration-rated vehicle velocity–maximum velocity – maximum gradability
COURSE OUTCOMES:
Upon completion of this course, the students will be ableto:
CO1 Explain how a hybrid vehicle works and describe its main components and their function.
CO2 Choose proper energy storage systems for vehicle applications
CO3 Design series hybrid electric vehicles.
CO4 Design parallel hybrid electric vehicles.
CO5 Describe the transmission components and their configurations for electric vehicles
REFERENCES:
1. Ehsani,M, “Modern Electric, Hybrid Electric and Fuel Cell Vehicles: Fundamentals, Theory and Design”, CRC Press,2005
2. “Hybrid Electric Vehicle Technology Assessment: Methodology, Analytical Issues, and Interim Results,”CenterforTransportationResearchArgonneNationalLaboratory,United States Department of Energy.
3. Iqbal Hussain, “Electric & Hybrid Vehicles– Design Fundamentals”, Second Edition, CRC Press,2011.
4. James Larminie, “Electric Vehicle Technology Explained”, John Wiley & Sons, 2003.
5. Sandeep Dhameja, “Electric Vehicle Battery Systems”, Newnes, 2000. http://nptel.ac.in/courses/108103009