The transition towards sustainable transportation options has propelled the development of hybrid electric vehicles (HEVs) that integrate cutting-edge energy management systems. This summary examines the effects of incorporating fuel cells, batteries, and ultracapacitors within these systems, emphasizing their collective ability to improve vehicle performance and environmental advantages. Fuel cells provide high energy efficiency and an extended range by converting hydrogen into electricity, while batteries offer significant energy storage and power for continuous driving and regenerative braking. Ultracapacitors, known for their swift charge and discharge capabilities, manage peak power requirements and enhance vehicle responsiveness. The collaboration of these technologies within a cohesive energy management system optimizes power allocation, increases vehicle range, lowers emissions, enhances fuel efficiency, and contributes to reducing greenhouse gas emissions while decreasing dependence on fossil fuels. Furthermore, this approach promotes the creation of more flexible and resilient transportation systems. The research highlights the extensive benefits of such hybrid configurations, including improved performance, heightened energy efficiency, and greater operational adaptability, representing a crucial advancement in the progression of eco-friendly automotive technologies.
Advancing Hybrid Electric Vehicles Energy Management System with Integrated Fuel Cells, Batteries and Ultracapacitors
2025-01-23
1181017 byte
Conference paper
Electronic Resource
English
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