Loading and utilization of active material in nickel composite electrodes: optimization
As an attempt to reduce nickel battery weight, the nickel composite electrode, has been under development. Investigations were undertaken to determine the optimum conditions for loading and utilizing nickel hydroxide active material in nickel composite electrodes. The main emphasis was placed on the improvement of both loading efficiency by electrochemical impregnation and utilization efficiency of the Ni(OH)2 active material. The efficiencies were examined as functions of such electrochemical conditions as current density, nickel concentration, pH, temperature of the impregnating bath, the continuity of current flow and manner of adding Co(OH)S additive. Also studied was the loading efficiency of chemical impregnation (polarization method) and the suspension method which enables a direct loading of externally prepared active material into the composite body. The most important factor for a quick utilization of the active material was found to be the additive distribution. A model of the additive distribution in the active material is proposed to account for different patterns of utilization exhibited by the electrodes.
- Research Organization:
- Naval Surface Weapons Center, Silver Spring, MD (USA). White Oak Lab.
- OSTI ID:
- 6205043
- Report Number(s):
- AD-A-160354/7/XAB
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
ELECTRIC BATTERIES
ELECTRODES
COMPOSITE MATERIALS
ADDITIVES
COBALT HYDROXIDES
DISTRIBUTION
EFFICIENCY
ELECTROCHEMISTRY
IMPREGNATION
NICKEL
NICKEL HYDROXIDES
OPTIMIZATION
CHEMISTRY
COBALT COMPOUNDS
ELECTROCHEMICAL CELLS
ELEMENTS
HYDROGEN COMPOUNDS
HYDROXIDES
MATERIALS
METALS
NICKEL COMPOUNDS
OXYGEN COMPOUNDS
TRANSITION ELEMENT COMPOUNDS
TRANSITION ELEMENTS
250903* - Energy Storage- Batteries- Materials
Components
& Auxiliaries