Title :
Design, Construction, and Control of a Stand-Alone Energy-Conditioning System for PEM-Type Fuel Cells
Author :
Malo, Shane ; Griñó, Robert
Author_Institution :
Inst. d´´Organitzacio i Control de Sistemes Ind., Univ. Politec. de Catalunya, Barcelona, Spain
Abstract :
This paper presents the development of an energy-conditioning system for a proton exchange membrane (PEM) type fuel cell (FC). The developed system provides 230 V ac rms at 50 Hz, with a nominal output power of 1 kVA, and is able to handle sporadic high-power demands up to 5 kVA. An auxiliary power unit (APU), using a bank of supercapacitors as energy-storing device, provides this extra power during a certain amount of time. The output current ripple and step response constraints of the FC unit are considered in the design. A frequency-decoupling scheme is used, in which the FC provides only the low-frequency requirements, while the fast/high-frequency demands are supplied by the APU. A detailed description is given for its different constructive modules, their control design, and implementation.
Keywords :
proton exchange membrane fuel cells; supercapacitors; PEM-type fuel cells; apparent power 1 kVA; apparent power 5 kVA; auxiliary power unit; current ripple; energy storing device; frequency 50 Hz; frequency-decoupling scheme; proton exchange membrane type fuel cell; stand-alone energy conditioning system; step response constraints; supercapacitors; voltage 230 V; Analog-digital conversion; Control design; Control systems; Energy storage; Frequency; Fuel cells; Power conversion; Power electronics; Power generation; Supercapacitors; Control of power converters; dc–ac and dc–dc power conversion; power conditioning; power electronics; proton exchange membrane (PEM) type fuel cells (FCs); supercapacitor (SC) energy storage;
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2010.2050151
