Title :
Power Management Unit With Its Control for a Three-Phase Fuel Cell Power System Without Large Electrolytic Capacitors
Author :
Li, Xiao ; Zhang, Wenping ; Li, Haijin ; Xie, Ren ; Chen, Min ; Shen, Guoqiao ; Xu, Dehong
Author_Institution :
Inst. of Power Electron., Zhejiang Univ., Hangzhou, China
Abstract :
This paper investigates a three-phase four-wire fuel cell power system. The system is sensitive to the load characteristic in a stand-alone mode, because variation or unbalance of the three-phase load will affect the safety and lifespan of the fuel cell. A novel power management unit (PMU) with its control strategy is proposed. The PMU can compensate fuel cell slow dynamics. In addition, the PMU acts as dc bus capacitors to deal with the low-frequency current ripple. Therefore, the large dc bus electrolytic capacitors can be eliminated in the fuel cell power system. The control strategy of the PMU is derived and the whole system is verified by the experimental results.
Keywords :
electrolytic capacitors; fuel cell power plants; power generation control; power system management; DC bus capacitors; DC bus electrolytic capacitors; PMU; control strategy; large electrolytic capacitors; low-frequency current ripple; power management unit; stand-alone mode; three-phase four-wire fuel cell power system; three-phase load; Capacitors; Equations; Fuel cells; Impedance; Phasor measurement units; Power system dynamics; Dynamic power compensation; fuel cell (FC) power system; low-frequency ripple reduction; power management unit (PMU);
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2011.2162533
