Stationary power applications for polymer electrolyte fuel cells

Author

Wilson, Mahlon S. ; Zawodzinski, C. ; Gottesfeld, Shimshon ; Landgrebe, Albert R.

Author_Institution

Los Alamos Nat. Lab., NM, USA

fYear

1996

fDate

9-12 Jan 1996

Firstpage

107

Lastpage

112

Abstract

The benefits provided by polymer electrolyte fuel cells (PEFC) for power generation (e.g. low operating temperatures, and noncorrosive and stable electrolyte), as well as advances in recent years in lowering their cost and improving anode poisoning tolerance, are stimulating interest in the system for stationary power applications. A significant market potentially exists for PEFCs in certain stationary applications where PEFC technology is a more attractive alternative to other fuel cell technologies. A difficulty with the PEFC is its operation on reformed fuels containing CO, which poisons the anode catalyst. This difficulty can be alleviated in several ways. One possible approach is described whereby the product reformate is purified using a relatively low cost, high-throughput hydrogen permselective separator. Preliminary experiments demonstrate the utility of the concept

Keywords

catalysis; catalysts; electric power generation; electrochemical electrodes; electrochemistry; electrolytes; fuel cell power plants; fuel cells; polymers; solid electrolytes; CO; anode catalyst; anode poisoning tolerance; hydrogen permselective separator; noncorrosive and stable electrolyte; operating temperature; polymer electrolyte fuel cells; product reformate purification; reformed fuels; stable electrolyte; stationary power applications; Anodes; Costs; Distributed power generation; Fuel cells; Hydrogen; Polymers; Power generation; Temperature; Toxicology; Transportation;

fLanguage

English

Publisher

ieee

Conference_Titel

Battery Conference on Applications and Advances, 1996., Eleventh Annual

Conference_Location

Long Beach, CA

Print_ISBN

0-7803-2994-5

Type

conf

DOI

10.1109/BCAA.1996.484979

Filename

484979