Kinetics and transport at AMTEC electrodes. I - The interfacial impedance model

Kinetics and transport at AMTEC electrodes. I - The interfacial impedance model

Mixed mass-transport and kinetic control of sodium ion reduction at porous inert electrodes on sodium beta-double-prime alumina solid electrolyte (BASE) ceramic in a high-temperature electrochemical cell has been observed and modeled. The high ionic conductivity of BASE and the reversibility of the...

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Veröffentlicht in:Journal of the Electrochemical Society 1990-06, Vol.137 (6), p.1709-1716
Hauptverfasser: Williams, R. M., Loveland, M. E., Jeffries-Nakamura, B., Underwood, M. L., Bankston, C. P., Leduc, H., Kummer, J. T.
Format: Artikel
Sprache:eng
Schlagworte:
Inorganic And Physical Chemistry
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Zusammenfassung:Mixed mass-transport and kinetic control of sodium ion reduction at porous inert electrodes on sodium beta-double-prime alumina solid electrolyte (BASE) ceramic in a high-temperature electrochemical cell has been observed and modeled. The high ionic conductivity of BASE and the reversibility of the liquid sodium/BASE anodic half-cell led to assignment of potential-dependent (nonohmic) resistances to kinetic and mass-transport processes associated with the porous electrode. The morphology of these electrodes and typical sodium gas pressures are consistent with Knudsen, or free-molecular, flow through the electrode.
ISSN:0013-4651
1945-7111
DOI:10.1149/1.2086775