Stability of beta alumina electrolyte in sodium/FeCl/sub 2/ (Zebra) cells

The authors describe how the stability of beta alumina in fully developed Zebra Na/FeCl/sub 2/ cells under long-term cycling has been proven. In the early stages of development of the Na/FeCl/sub 2/ cell, some problems in the form of increased resistances were encountered under certain extreme condi...

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Veröffentlicht in:	Journal of the Electrochemical Society 1989-05, Vol.136:5
Hauptverfasser:	Moseley, P.T., Bones, R.J., Teagle, D.A., Bellamy, B.A., Hawes, R.W.M.
Format:	Artikel
Sprache:	eng
Schlagworte:	30 DIRECT ENERGY CONVERSION 300503 - Fuel Cells- Materials, Components, & Auxiliaries 300505 - Fuel Cells- Electrochemistry, Mass Transfer & Thermodynamics 400400 - Electrochemistry ALUMINIUM COMPOUNDS ALUMINIUM OXIDES CHALCOGENIDES CHARGED PARTICLES CHEMICAL REACTION KINETICS CHEMISTRY CHLORIDES CHLORINE COMPOUNDS DIRECT ENERGY CONVERTERS ELECTRIC FIELDS ELECTRIC IMPEDANCE ELECTROCHEMICAL CELLS ELECTROCHEMISTRY ELECTRODES ELECTROLYTES FUEL CELLS HALIDES HALOGEN COMPOUNDS IMPEDANCE INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY IONS IRON CHLORIDES IRON COMPOUNDS KINETICS OXIDES OXYGEN COMPOUNDS REACTION KINETICS SODIUM IONS STABILITY TRANSITION ELEMENT COMPOUNDS
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container_title	Journal of the Electrochemical Society
container_volume	136:5
creator	Moseley, P.T. Bones, R.J. Teagle, D.A. Bellamy, B.A. Hawes, R.W.M.
description	The authors describe how the stability of beta alumina in fully developed Zebra Na/FeCl/sub 2/ cells under long-term cycling has been proven. In the early stages of development of the Na/FeCl/sub 2/ cell, some problems in the form of increased resistances were encountered under certain extreme conditions of temperature and voltage. While these difficulties have now been overcome in practical cells, the scientific investigation into the causes of the anomalous resistance behavior showed it to be related to the interaction of the beta alumina with constituents of the positive electrode compartment. In particular, iron has been shown to enter beta alumina in the presence of an electric field when current is passing, if the cell is deliberately overheated.
doi_str_mv	10.1149/1.2096922
format	Article
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In the early stages of development of the Na/FeCl/sub 2/ cell, some problems in the form of increased resistances were encountered under certain extreme conditions of temperature and voltage. While these difficulties have now been overcome in practical cells, the scientific investigation into the causes of the anomalous resistance behavior showed it to be related to the interaction of the beta alumina with constituents of the positive electrode compartment. In particular, iron has been shown to enter beta alumina in the presence of an electric field when current is passing, if the cell is deliberately overheated.</abstract><cop>United States</cop><doi>10.1149/1.2096922</doi></addata></record>
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subjects	30 DIRECT ENERGY CONVERSION 300503 - Fuel Cells- Materials, Components, & Auxiliaries 300505 - Fuel Cells- Electrochemistry, Mass Transfer & Thermodynamics 400400 - Electrochemistry ALUMINIUM COMPOUNDS ALUMINIUM OXIDES CHALCOGENIDES CHARGED PARTICLES CHEMICAL REACTION KINETICS CHEMISTRY CHLORIDES CHLORINE COMPOUNDS DIRECT ENERGY CONVERTERS ELECTRIC FIELDS ELECTRIC IMPEDANCE ELECTROCHEMICAL CELLS ELECTROCHEMISTRY ELECTRODES ELECTROLYTES FUEL CELLS HALIDES HALOGEN COMPOUNDS IMPEDANCE INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY IONS IRON CHLORIDES IRON COMPOUNDS KINETICS OXIDES OXYGEN COMPOUNDS REACTION KINETICS SODIUM IONS STABILITY TRANSITION ELEMENT COMPOUNDS
title	Stability of beta alumina electrolyte in sodium/FeCl/sub 2/ (Zebra) cells
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