Open AccessDevelopment of a Passive Mini-Direct Ethanol Fuel Cell: Effect of Mea Assembly Parameters by Hot Pressure
Author(s) -
Diego Triviño,
Gustavo A. López-Martínez,
Rubén Jesús Camargo Amado,
William H. Lizcano-Valbuena
Publication year - 2014
Publication title -
revista de ciencias
Language(s) - English
Resource type - Journals
eISSN - 2248-4000
pISSN - 0121-1935
DOI - 10.25100/rc.v17i3.482
Subject(s) - electrolyte , anode , cathode , electrode , chemistry , oxygen , membrane electrode assembly , power density , catalysis , ethanol , analytical chemistry (journal) , volume (thermodynamics) , capillary action , direct ethanol fuel cell , materials science , composite material , chromatography , power (physics) , thermodynamics , physics , biochemistry , organic chemistry
This paper presents preliminary results on the design, construction and evaluation of a passive mini direct ethanol fuel cell (DEFC), capillary fed with 2 mol l-1 aqueous ethanol, at a rate of 2.03 μL min-1, and air oxygen in the cathode through an air vent. Parameters such as pressure, temperature and time of manufacturing a membrane-electrode assembly (MEA) by hot-pressure were evaluated. As the electrode holder used a 0.25 cm2 carbon tissue which was deposited on the catalytic layer (C. L.) for both the anode (0.8 mg cm-2of PtRu/C) and the cathode (0.8 mg cm -2of Pt/C), Nafi on® 115 membranes were used as the electrolyte. The results show, an average power density of 302 μWcm2 under the best conditions used, a catalytic layer with a Nafi on percentage of 50% at 25 °C. A temperature of 125 °C, a pressure of 49.2 Kg/cm2, and 90 seconds duration were used to obtain the MEA.
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