Title :
Fuel Cell System Optimization Using Bypass Converters
Author :
Lücken, Arno ; Kut, Tobias ; Dickmann, Stefan ; Schulz, Dirk
Author_Institution :
Inst. of Electr. Power Syst., Helmut Schmidt Univ., Hamburg, Germany
Abstract :
The reduction of CO2 emissions, and therefore the increase of ecoefficiency, is one of the most important challenges for the aircraft industry. An approach could be the more electric aircraft concept. Within this concept, the traditional auxiliary power unit could be replaced by a multifunctional fuel cell system. For integration into the ±270 Vdc grid, it is necessary to convert the load-dependent fuel cell output voltage using a direct current-to-direct current converter. The converter usually is designed for the maximum available fuel cell power. This paper deals with an adaption of the fuel cell output voltage to achieve downsizing of the converter. The proposed converter structure with an additional bypass has weight-saving effects and improves overall system efficiency.
Keywords :
DC-DC power convertors; air pollution; aircraft power systems; carbon compounds; fuel cell power plants; fuel cell vehicles; CO2; aircraft industry; auxiliary power unit; bypass converters; direct current-to-direct current converter; emission reduction; fuel cell system optimization; load-dependent fuel cell output voltage; more electric aircraft concept; multifunctional fuel cell system; Aircraft; DC-DC power converters; Fuel cells; HVDC transmission; Power dissipation; Switches;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
DOI :
10.1109/TAES.2013.120058
