Characterization of a 5 kW solid oxide fuel cell stack using power electronic excitation

Author(s)

Seger, Eric; Shaw, Steven R.; Leeb, Steven B.; Cooley, John J.

Abstract

Fuel cells have attracted great interest as a means of clean, efficient conversion of chemical to electrical energy. This paper demonstrates the identification of both non-parametric and lumped circuit models of our stack in response to a test signal introduced by control of a power electronic circuit. This technique could be implemented on-line for continuous condition assessment of the stack, as it delivers power. The results show typical data from the stack, comparison of model and measured data, and whole-stack impedance spectroscopy results using a power electronic system to provide excitation. Run-time excitation currents for the spectroscopy measurement are generated by a hybrid power system controlling the flow of power from the fuel cell and a secondary power source to a fixed resistive load. The hybrid power system generates small-signal currents at the fuel cell terminals while the load current itself is largely unaffected by the impedance spectroscopy measurement.

Date issued

2010-03

URI

http://hdl.handle.net/1721.1/71797

Department

Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science

Journal

IEEE Applied Power Electronics Conference and Exposition.

Publisher

Institute of Electrical and Electronics Engineers (IEEE)

Citation

Cooley, John J. et al. “Characterization of a 5 kW Solid Oxide Fuel Cell Stack Using Power Electronic Excitation.” IEEE, 2010. 2264–2274. © Copyright 2010 IEEE

Version: Final published version

ISBN

978-1-4244-4783-1

978-1-4244-4782-4

ISSN

1048-2334