Super capacitors and fuel cell energetic assistance for the transport applications - Energy management in the traction situations
Résumé
This paper presents the integration of the Fuel Cell (FC) and the SuperCapacitors (SC) in the distributed energy generation system such as the transport applications. This proposal is due to the present trend in the transport applications, knowing that the major drawback for these applications is the energetic autonomy problem. In this context, using the Fuel Cell and the SuperCapacitors with a performing energy management method is a promising solution to improve the energetic performances of the system. This paper presents the load's demand sharing between the SC and the FC in the traction situations. The proposed control method is implemented in the PIC18F4431 microcontroller for the reduced scale experimental test bench management. Through some experimental results, the authors present an improved energy management method for the transport applications during the tractions situations.
Mots clés
Supercapacitors
Fuel cells
Voltage control
Polynomials
Current measurement
Energy management
Converters
distributed power generation
energy management systems
fuel cell vehicles
microcontrollers
supercapacitors
traction
transportation
transport applications
traction situations
fuel cell energetic assistance
distributed energy generation system
energetic autonomy problem
energy management method
PIC18F4431 microcontroller
reduced scale experimental test bench management
tractions situ ations
Buck-boost converter
DC/DC converter
Dynamic control
Embedded Energy
Energy storage
Fuel Cell
Polynomial controller
Supercapacitor
Ultracapacitor