Separation Method for Oxygen Mass Transport Coefficient in Two Phase Porous Air Electrodes - Transport in Gas and Solid Polymer or Liquid Electrolyte Phases

Abstract

A novel method to determine the oxygen mass transport coefficient and its separation into gas and ionomer contributions was developed and validated. The method is based on the use of a limiting current density distribution mathematical model and different diluent gases with varying molecular weights. A linear relationship between the inverse overall mass transport coefficient and the diluent molecular weight was revealed. Because the use of different gas diluents with different molecular weight only affect the mass transport coefficient in the gas phase, an extrapolation to a zero diluent weight gives the O2 mass transport coefficient in the ionomer phase. The gas phase mass transport coefficient is then calculated using the additive relation between the overall mass transport coefficient and its components. The O2 mass transport coefficient in the electrolyte phase was found to be equal to 0.01284 m/s, while in N2 diluent is equal to 0.02727 m/s. Effects of selected operating conditions (temperature, O2 concentration) and MEA materials (cathode Pt loading and GDL) on the O2 mass transport coefficient were studied and discussed.

Document Details

Document Type

Technical Report

Publication Date

Aug 06, 2013

Accession Number

ADA591773

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