Short-time Overloading Capability and Distributed Generation Applications of Solid Oxide Fuel Cells

Author

Wang, Caisheng ; Nehrir, Hashem

Author_Institution

Wayne State Univ., Detroit, MI

fYear

2007

fDate

24-28 June 2007

Firstpage

1

Lastpage

1

Abstract

Summary form only given. This paper presents some application studies of the dynamic solid oxide fuel cell (SOFC) model developed by the authors. First, the model is used to investigate the short-time overloading capability of the SOFC. Then, the application of the model in distributed generation (DG) system studies is explored. Controller design methodologies are also presented for grid-connected SOFC DG power conditioning units to control power flow from the SOFC DG to the utility grid. Simulation results show that the SOFC DG system is able to manage real and reactive power flows to the utility grid to which it is connected. They also show that a properly designed SOFC DG can remain stable under temporary electrical faults.

Keywords

distributed power generation; solid oxide fuel cells; distributed generation; power conditioning units; power flow control; short-time overloading capability; solid oxide fuel cells; Design methodology; Distributed control; Energy management; Fuel cells; Load flow; Power conditioning; Power system management; Power system modeling; Reactive power; Solid modeling;

fLanguage

English

Publisher

ieee

Conference_Titel

Power Engineering Society General Meeting, 2007. IEEE

Conference_Location

Tampa, FL

ISSN

1932-5517

Print_ISBN

1-4244-1296-X

Electronic_ISBN

1932-5517

Type

conf

DOI

10.1109/PES.2007.385840

Filename

4275606