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Long Term Testing in Continuous Mode of HT-PEMFC Based H3PO4/PBI Celtec-P MEAs for μ-CHP Applications

✍ Scribed by Ph. Moçotéguy; B. Ludwig; J. Scholta; R. Barrera; S. Ginocchio

Publisher: John Wiley and Sons
Year: 2009
Tongue: English
Weight: 929 KB
Volume: 9
Category: Article
ISSN: 1615-6846
DOI: 10.1002/fuce.200800134

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✦ Synopsis

Abstract

Single cell and 500 We stack integrating Celtec P1000 MEAs were operated in continuous mode at 0.4 A cm^–2^ and 160 °C, under simulated reformate and air. Single cell's ohmic resistivity was almost unaffected by 1,100 h of ageing but the cell progressively switched from a cathodic to an anodic mass transfer limited operation. The stack was operated for 658 h, exhibiting the same behaviour and an additional increase in cell voltage distribution heterogeneity. CO~2~ proved to have negligible effect on performances but performance losses induced by ageing are doubled in the presence of CO. Post‐testing experiments revealed that anode electrochemical active area was dramatically decreased and that platinum content was also decreased. Finally, results showed that a convenient shut‐down procedure could prevent or limit degradations associated with storage.

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## Abstract High temperature proton exchange membrane fuel cells (HT‐PEMFC) have a promising market in micro‐combined heat and power (μ‐CHP) applications. Operating above 150 °C, they would better cope with return temperatures of typical heating systems than conventional PEMFCs and would allow simp