Title :
Performance evaluation of differential flatness based-control of fuel cell/supercapacitor hybrid power source
Author :
Thounthong, Phatiphat ; Pierfederici, Serge ; Davat, Bernard
Author_Institution :
Dept. of Teacher Training in Electr. Eng., King Mongkut´´s Univ. of Technol. North Bangkok (KMUTNB), Bangkok, Thailand
Abstract :
This paper presents the utilization of energy storage device composed of supercapacitor bank for future electric vehicles with a hydrogen fuel cell (FC) as the main power source. The study mainly focuses on the innovative control law based-on flatness properties for fuel cell/supercapacitor hybrid power source. Utilizing the flatness principle, we propose simple solutions to the hybrid energy management and stabilization problems. To authenticate the proposed control laws, a test bench is realized in laboratory. The control algorithm (energy and current control loops) is digitally implemented by dSPACE controller DS1103. Experimental results with small-scale devices (a PEMFC: 500 W, 50 A, 10 V; and a supercapacitor bank: 250 F, 32 V, 500 A) substantiate the excellent performance during load cycles.
Keywords :
energy management systems; fuel cell vehicles; hybrid power systems; hydrogen; performance evaluation; stability; supercapacitors; dSPACE controller DS1103; differential flatness based-control; electric vehicle; energy storage device; fuel cell; hybrid energy management; hybrid power source; hydrogen fuel cell; performance evaluation; small-scale device; stabilization; supercapacitor; Current control; Fuel cells; Generators; Hybrid power systems; Power conversion; Supercapacitors; Converters; current control; electric vehicles; fuel cells; nonlinear; supercapacitor;
Conference_Titel :
Electrical Machines (ICEM), 2010 XIX International Conference on
Conference_Location :
Rome
Print_ISBN :
978-1-4244-4174-7
Electronic_ISBN :
978-1-4244-4175-4
DOI :
10.1109/ICELMACH.2010.5608119
