Title :
Sliding mode controller for breathing subsystem on a PEM fuel cell system
Author :
Baroud, Z. ; Benmiloud, M. ; Benalia, A.
Author_Institution :
LACoSERE Lab., Amar Telidji Univ., Laghouat, Algeria
Abstract :
This paper proposes a sliding mode controller for air supply subsystem on a PEM Fuel Cell system in order to regulate and replenish the oxygen depleted from the Fuel Cell cathode during stack current demands. According to the stack current, a reference value of air flow was obtained with the steady-state analysis of oxygen excess ratio (OER). To ensure the system working in the reference value of OER, a control scheme includes a sliding mode controller was proposed to adjust the air flow rate provided by the air compressor. Simulation results show that the control methods has good responses against disturbances and uncertainties.
Keywords :
compressors; electrochemical electrodes; proton exchange membrane fuel cells; variable structure systems; PEM fuel cell system; air compressor; air flow rate; air supply subsystem; breathing subsystem; fuel cell cathode; oxygen excess ratio; reference value; sliding mode controller; stack current; steady-state analysis; Anodes; Atmospheric modeling; Cathodes; DC motors; Fuel cells; Mathematical model; Voltage control; fuel cell; oxygen excess ratio; sliding mode controller; stack current oxygen starvation;
Conference_Titel :
Control, Engineering & Information Technology (CEIT), 2015 3rd International Conference on
Conference_Location :
Tlemcen
DOI :
10.1109/CEIT.2015.7233094
