Open AccessAccelerated Testing Validation
Author(s) -
Rangachary Mukundan,
Rodney L. Borup,
John Davey,
Roger Lujan,
Dennis Torraco,
David A. Langlois,
Fernando H. Garzón,
Dusan Spernjak,
Joseph D. Fairweather,
Adam Z. Weber,
Karren L. More,
Paul Beattie,
Steve Grot
Publication year - 2014
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/1150675
Subject(s) - replicate , degradation (telecommunications) , materials science , engineering , mathematics , statistics , electrical engineering
The DOE Fuel Cell technical team recommended ASTs were performed on 2 different MEAs (designated P5 and HD6) from Ballard Power Systems. These MEAs were also incorporated into stacks and operated in fuel cell bus modules that were either operated in the field (three P5 buses) in Hamburg, or on an Orange county transit authority drive cycle in the laboratory (HD6 bus module). Qualitative agreement was found in the degradation mechanisms and rates observed in the AST and in the field. The HD6 based MEAs exhibited lower voltage degradation rates (due to catalyst corrosion) and slower membrane degradation rates in the field as reflected by their superior performance in the high potential hold and open-circuit potential AST tests. The quantitative correlation of the degradation rates will have to take into account the various stressors in the field including temperature, relative humidity, start/stops and voltage cycles.
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