Fuel cell power conditioning system design for residential application

International Journal of Hydrogen Energy

Volumn 34, Issue 5, 2009, Pages 2340-2349

  Wang, Yong ^a   Choi, Seeyoung ^b   Lee, Eunchul ^c  

^a Samsung Advanced Institute of Technology (SAIT)   (South Korea)

^b SAMSUNG Electronics   (South Korea)

^c Willings Co Ltd   (South Korea)

Author keywords

Efficiency; Fuel cell; Grid integration; Power conditioning system; Ripple current

Indexed keywords

CELL MEMBRANES; ELECTROCHEMISTRY; POWER GENERATION; PROTON EXCHANGE MEMBRANE FUEL CELLS (PEMFC);

CELL POWER; DC-LINK VOLTAGES; GRID INTEGRATION; HIGH EFFICIENCIES; LOW-FREQUENCY CURRENTS; MAXIMUM EFFICIENCIES; OUTPUT CURRENTS; POWER CONDITIONING SYSTEM; POWER GRIDS; RESIDENTIAL APPLICATIONS; RIPPLE CURRENT;

SOLID OXIDE FUEL CELLS (SOFC);

EID: 60949108680     PISSN: 03603199     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ijhydene.2008.12.090     Document Type: Article

References (12)

1. Ramirez D., Beites L.F., Blazquez F., and Ballesteros J.C. Distributed generation system with PEM fuel cell for electrical power quality improvement. International Journal of Hydrogen Energy 33 16 (August 2008) 4433-4443
2. Maclay J.D., Brouwer J., and Samuelsen G.S. Dynamic analyses of regenerative fuel cell power for potential use in renewable residential applications. International Journal of Hydrogen Energy 31 8 (July 2006) 994-1009
3. Varkaraki E., Lymberopoulos N., Zoulias E., Guichardot D., and Poli G. Hydrogen-based uninterruptible power supply. International Journal of Hydrogen Energy 32 10-11 (July-August 2007) 1589-1596
4. Wang J., Peng F.Z., Anderson J., Joseph A., and Buffenbarger R. Low cost fuel cell converter system for residential power generation. IEEE Transactions on Power Electronics 19 5 (September 2004) 1315-1322
5. Kovacevic G., Tenconi A., and Bojoi R. Advanced DC-DC converter for power conditioning in hydrogen fuel cell systems. International Journal of Hydrogen Energy 33 12 (June 2008) 3215-3219
6. M. Aydemir, A. Bendre, G. Venkataramanan, A critical evaluation of high power hard and soft switched isolated DC-DC converters, presented at Industry Applications Conference, 13-18 October, 2002.
7. Xu H., Kong L., and Wen X. Fuel cell power system and high power dc-dc converter. IEEE Transactions on Power Electronics 19 5 (September 2004) 1250-1255
8. M. Mohr, F. -W. Fuchs, Voltage fed and current fed full bridge converter for the use in three phase grid connected fuel cell systems, presented at Power Electronics and Motion Control Conference, 14-16 August 2006.
9. Patterson O.D., and Divan D.M. Pseudo-resonant full bridge DC/DC converter. IEEE Power Electronics Specialists Conference Record (June 1987) 424-430
10. Hamada S., and Nakaoka M. A novel zero voltage and zero current soft switching PWM DC-DC converter with reduced conduction losses. IIEEE Transactions on Power Electronics 17 3 (May 2002) 413-419
11. Shireen W., Kulkarni R.A., and Arefeen M. Analysis and minimization of input ripple current in PWM inverters for designing reliable fuel cell power systems. Journal of Power Sources 156 2 (June 2006) 448-454
12. Liu C., and Lai J.S. Low frequency current ripple reduction technique with active control in a fuel cell power system with inverter load. IEEE Transactions on Power Electronics 22 4 (July 2007) 1429-1436