Development of a methanol fuel processor for PEMFC applications

Abstract

The preferential oxidation (PROX) of CO in the presence of hydrogen is regarded as one of the most effective methods for reducing CO levels to a desired value in polymer electrolyte membrane fuel cell (PEMFCs) application. In this research, a series of Au/FeOx-MnOx catalysts Prepared by deposition-precipitation was investigated. The prepared catalysts were investigated in a microreactor for the PROX and then used in a Methanol fuel processor (MFP), which included a reformer and PROX reactor. The optimum conditions (Au/FeOx-MnOx atomic ratio of 1/30, Fe/Mn molar ratio of 1/1, and calcination temperature of 400 °C) provided 100 % CO conversion and 56 % PROX selectivity at 60 °C. The pivotal presence of water vapor (10 %) in the feedstream could significantly enhance the CO conversion. On the other hand, the negative effect of CO₂ (10 %) in the feedstream on catalytic activity was clearly observed. Nevertheless, the Au/FeOx-MnOx catalyst exhibited good performance in a reformed gas stream using an MFP for 12 hours.