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34 - Fuel-cells, steam-electrolysis for hydrogen production and hydrogen separation using high temperature protonic conductors

Published online by Cambridge University Press:  04 May 2010

Philippe Colomban
Affiliation:
Centre National de la Recherche Scientifique (CNRS), Paris
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Summary

Introduction

Although there are many protonic conductors which are stable at low temperatures (< 200 °C), they are not suitable for high electrolytic current applications because of their large electrode polarization. Therefore, their usage is probably limited to sensors in which only a voltage signal is valuable.

In contrast to this, high temperature protonic conductors are applicable both to sensors and high electrolytic current usage, e.g. electrolysis, galvanic cells for power supply, etc. since, at high temperature, electrode reactions are able to proceed smoothly and, in general, polarization is small. In Table 34.1, possible applications of high temperature proton conducting solid electrolytes are listed, classifying them as having either an electromotive function or a preferential permeation of protons.

In this chapter, the distinctive features of proton conductors as an electrolyte for use in a fuel cell or in a steam electrolyser are discussed in comparison to those of oxide ion conductors. In addition, the possibility of using a proton conductor in a hydrogen gas separator is also described. As examples, the experiments on fuel-cells, steam electrolysers and hydrogen gas separators using proton conducting, perovskite-type oxides are described.

Fuel-cells

The use of a proton conducting solid electrolyte in a fuel-cell has distinctive features compared with that of oxide ion conductors. illustrated in Fig. 34.1, when a protonic conductor is used, fuel circulation is unnecessary in a hydrogen fuel-cell because no water molecules are generated at the fuel electrode.

Type
Chapter
Information
Proton Conductors
Solids, Membranes and Gels - Materials and Devices
, pp. 511 - 522
Publisher: Cambridge University Press
Print publication year: 1992

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