Energy Management in Hybrid Electric Boat Based on Frequency Distribution Approach - Using Diesel, Lithium-Battery and Supercapacitors
Résumé
This paper presents energy management improvement for a Hybrid Electric Boat (HEB) using frequency approach. Diesel generator is assisted by supercapacitors and lithium-battery to satisfy energetic demand of hybrid electric boat. Supercapacitors and lithium-battery are linked to DC-bus through two bidirectional converters, and diesel generator is connected to DC-bus using three phase controlled rectifier. DC/AC converters connected to two electric motors are used as thrusters system which enables to emulate energetic demand of Hybrid Electric Boat (HEB) in propulsion operations. The power requirement of thrusters is added to embedded appliances demand to obtain load's profile. The contribution of this paper is focused on load's profile sharing between Diesel generator, supercapacitors and lithium-battery according to the dynamic responses of these sources. Proposed method performances are evaluated through some simulations using MATALB/Simulink software.
Mots clés
Supercapacitors
Generators
Batteries
Energy management
Frequency control
Boats
Polynomials
diesel-electric generators
energy management systems
hybrid electric vehicles
secondary cells
supercapacitors
energy management
hybrid electric boat
frequency distribution
lithium-battery
diesel generator
bidirectional converters
rectifier
DC/AC converters
electric motors
thrusters system
MATALB/Simulink software