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1063219 
Journal Article 
Direct ethanol fuel cells: The effect of the cell discharge current on the products distribution 
Andreadis, G; Stergiopoulos, V; Song, S; Tsiakaras, P 
2010 
Yes 
Applied Catalysis B: Environmental
ISSN: 0926-3373 
100 
1-2 
157-164 
English 
WOS:000283963000019 
In the present work the results of the continuous and on-line product analysis during a Direct Ethanol Polymer Electrolyte Membrane Fuel Cell operation (DE-PEMFC) are presented. The effect of both cell discharge current and operating temperature on (a) the ethanol's conversion, (b) the reaction products distribution and (c) the reaction yield towards each released product, is examined. The MEA used during the experiments is comprised of a PtRu/C anode, a Nafion (R)-115 membrane and a Pt/C cathode. It is found that the increase of the cell current and the operating temperature lead to an increase of the ethanol conversion. The maximum ethanol conversion is found to be 4.6% and it is recorded when the cell current is 120 mA and the cell temperature is 90 degrees C. The main products detected during the fuel cell operation are acetaldehyde (CH(3)CHO), acetic acid (CH(3)COOH) and small amounts of carbon dioxide (CO(2)). The selectivity of acetaldehyde ranges from 45% to 70%, the selectivity of acetic acid ranges from 25% to 45% and the selectivity of CO(2) ranges from 5% to 15%. As it concerns the reaction yield towards each product, it is found that the increase of the temperature results in an increase of the yield. Furthermore, from the Arrhenius plots based on the products formation rate, it is found that the acetaldehyde is favored over PtRu/C compared to the other products. Finally, based on the apparent activation energy of the CO(2) formation rate (50 kJ mol(-1)), it is concluded, that the C-C bond breakage of the ethanol molecule is difficult to occur over the anode catalyst. (C) 2010 Elsevier B.V. All rights reserved. 
Direct ethanol PEM fuel cell; On-line product analysis; Ethanol conversion; Products distribution