Yu. M. Volfkovich scite author profile

Partial dehydration of the proton-conducting membrane under working conditions is one of the major problems in low-temperature fuel cell technology In this paper a model, which accounts for the electro-osmotically induced drag of water from anode to cathode and the counterfiow in a hydraulic pressure gradient is proposed. A balance of these flows determines a gradient of water content across the membrane, which causes a decline of the current-voltage performance. Phenomenological transport equations coupled with the capillary pressure isotherm are used, involving the conductivity permeability and electro-osmotic drag coefficients dependent on the local water content. The effects of membrane parameters on current-voltage performance are investigated. A universal feature of the obtained current-voltage plots is the existence of a critical current at which the potential drop across the membrane increases dramatically due to the dehydration of membrane layers close to the anode. For a membrane with zero residual conductivity in its dry parts, the critical current is a limiting current. Well below the critical current the effect of dehydration is negligible and the currentvoltage plot obeys Ohm's law. The shape of the capillary pressure isotherm determines the nonohmic corrections. A comparison of the results of this study to those of the pertinent diffusion-type models reveals qualitatively different features, the convection model is found to be closer to experimental observations.

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A Study of Capillary Porous Structure and Sorption Properties of Nafion Proton‐Exchange Membranes Swollen in Water

Divišek

Eikerling

Mazin

et al. 1998

J. Electrochem. Soc.

124

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Porous structure of ion exchange membranes investigated by various techniques

Kononenko

Nikonenko

Grande

et al. 2017

Advances in Colloid and Interface Science

119

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The standard contact porosimetry

Volfkovich¹,

Bagotzky

Сосенкин

et al. 2001

Colloids and Surfaces A: Physicochemical and Engineering Aspect

125

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Yu. M. Volfkovich

Capillary pressure and hydrophilic porosity in gas diffusion layers for polymer electrolyte fuel cells

Phenomenological Theory of Electro‐osmotic Effect and Water Management in Polymer Electrolyte Proton‐Conducting Membranes

A Study of Capillary Porous Structure and Sorption Properties of Nafion Proton‐Exchange Membranes Swollen in Water

Porous structure of ion exchange membranes investigated by various techniques

The standard contact porosimetry

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