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Characterization of Methanol Crossover through Nafion Membranes by Direct Cell Performance Measurement

2002; Volume: 5; Issue: 4 Linguagem: Inglês

10.5229/jkes.2002.5.4.226

2288-9000

Kyung‐Won Park, Young‐Min Kim, Bu-kil Kwon, Jong‐Ho Choi, Insu Park, Yung‐Eun Sung,

Advancements in Solid Oxide Fuel Cells

Power densities produced by the permeation of methanol through membranes were directly measured by inserting the membrane in front of anode in a membrane-electrode-assembly of a direct methanol fuel cell (DMFC). The power density was closely related to the loss of power in the DMFC and was strongly affected by temperature. As the cell temperature was increased, the power density resulting from methanol crossover was increased. The increase in methanol crossover had be attributed to diffusion caused or affected by temperature. Methanol crossover a major effect on the performance of a DMFC at a relatively low temperature with $26\%\;loss\;at\;30^{\circ}C$ . In order to reduce methanol crossover, a conventional Nafion membrane was modified by the incorporation of Pt or Pd. The reduction in methanol crossover was investigated in these modified membranes by our cell performance measurement. Pt and Pd particles incorporated in the Nafion membranes block methanol pathway and prevent methanol transport through the membranes, which was proved by combining with liquid chromatography.