W Booth School of Engineering Practice and Technology
Associate Member
Mechanical Engineering
Overview
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Problem Based Learning course that allows group of students to design innovative electric or hybrid electric vehicle concepts and associated rental or car sharing services. Students are involved in topics that combine mechanical, electrical, controls, and computer engineering with business and management elements with the purpose of creating a smart vehicle associated with a smart car service.
The course covers topics related to electric and hybrid electric vehicles. It begins with an introduction to the automotive industry and explains the need for electrification, and then continues with an introduction to internal combustion engines and electric machines. The course covers electrical and hybrid energy storage systems and chargers, and concentrate on the fundamentals of hybrid electric powertrains, hybrid electric vehicles, plug-in hybrid electric vehicles, all-electric vehicles, and range-extended electric vehicles.
Cross-listed: SEP 722 / MECHENG 760
TERM 1
Instructor
Dr. Dan Centea, LEL.
The course covers topics related to electric and hybrid electric vehicles. It begins with an introduction to the automotive industry and explains the need for electrification, and then continues with an introduction to internal combustion engines and electric machines. The course covers electrical and hybrid energy storage systems and chargers, and concentrate on the fundamentals of hybrid electric powertrains, hybrid electric vehicles, plug-in hybrid electric vehicles, all-electric vehicles, and range-extended electric vehicles.
Cross-listed: SEP 722 / MECHENG 760
TERM 1
Instructor
Dr. Dan Centea, LEL.
3 unit(s) Problem based learning course in which groups of students research, discuss, and implement conceptual design aspects of electric or hybrid electric vehicles for modern transportation approaches. The engineering and business aspects of vehicle design are analysed from the vehicle specification phase to various levels of automation. Three lectures; first term Prerequisite(s): AUTOTECH 3AE3, 3AV3, 4EC3, ENGTECH 4EE0, and registration in level IV of the Automotive and Vehicle Engineering Technology program
3 unit(s) Internal combustion engine operating characteristics; engine maps; engine cycles; engine configuration and design; air and fuel induction; fluid motion within combustion chamber; heat transfer in engines; friction and lubrication. Three lectures, one lab (two hours every other week); second term Prerequisite(s): AUTOTECH 3AE3 and registration in level IV of the Automotive and Vehicle Engineering Technology program