Course description
This course will provide you with a broad technical knowledge and practical expertise of hybrid and electric vehicle (HEV) technologies, analysis, design, component selection and sizing at both system and vehicle level.
This course will serve as an introduction to HEV technologies. Further bespoke courses focused on specific aspects of HEV analysis and design can be provided upon request.
Upcoming start dates
Suitability - Who should attend?
This course is aimed at system and/or component design engineers, working in the automotive industry, that are responsible for HEV design, development and validation.
It is also suitable for engineering directors and managers, and vehicle technology enthusiasts, who wish to obtain more in-depth knowledge of HEV technologies.
Outcome / Qualification etc.
What you will learn
On successful completion of this course you will be able to:
Analyse the different powertrain architecture options and select the appropriate solutions within realistic performance and commercial constraints.
Evaluate various technology options for (electrical and mechanical) energy generation, storage, transmission, and management for a HEV, and be able to select between different technologies relative to a given vehicle application and overall system design.
Size various HEV sub-systems, within the context of various vehicle constraints, such as performance, fuel economy and packaging.
Employ and experiment rapid control prototyping techniques to design and validate HEV high-level and low-level control systems.
Carry out performance evaluations of a HEV and its sub-systems, using offline simulations and real-time HiL testing.
Training Course Content
Core content
Introduction to hybrid and electric vehicles (HEVs)
Electrification and hybridisation concepts
HEV architectures and classifications
Technological trends
Principles of electric machines (EM)
EM fundamentals and characteristics
EM selection criteria for HEVs
EM modelling and analysis
Principles of power electronics and EM control
Power electronic fundamentals
Electric drives for HEVs
Electric motors control systems
Battery energy storage systems
Battery chemistry fundamentals
Battery modelling, form cell to pack
Battery pack sizing and design issues
Battery management systems
Battery charging infrastructure
Battery testing practical session
Fuel cell vehicles
Fuel cell fundamentals
The fuel cell electric vehicle technology
Hydrogen generation and storage systems
HEV transmission and alternative energy storage systems
HEV transmission systems (converted, dedicated)
Hydraulic hybrid systems
Flywheel systems
Hybrid and electric vehicle dynamics
Hybrid and electric vehicle dynamics
Regenerative braking
Energy Management in HEVs
Energy flow modelling and calculation
Energy optimisation techniques
HEV supervisory control
Model-based development of HEVs
Modelling of a HEV and its subsystems
HEV performance measurements and system analysis, design, and sizing
Control system architecture and design of HEVs
HiL simulation, testing and validation of HEVs
Course delivery details
Course structure
This five-day course will consist of a mix of lectures, case studies and some very unique practical (hands-on) sessions from both academic and industry specialists, to develop proficiency in a broad range of HEV (and its sub-systems) technologies. All delegates will receive a certificate of attendance at the end of the course.
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Cranfield University
Cranfield is a specialist postgraduate university that is a global leader for education and transformational research in technology and management. We have many world-class, large-scale facilities, including our own global research airport, which offers a unique environment for transformational education...