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Nickel-hydrogen life cycle testing : review and analysis /
Annotation
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
El Segundo, Calif. :
Aerospace Press,
2003.
|
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Overview of Nickel-Hydrogen Cell Technology
- Relevant Chemical and Electrochemical Reactions
- Major Cell Components
- Cell Design Considerations
- Stacking Arrangement
- Review of LEO Cycling Data
- LEO Cycling Data at 60% Depth of Discharge
- Other LEO Cycling Data
- Review of NASA Cycling in Support of the Space Station Program
- Posttest Destructive Physical Analysis Studies
- Plate Material Cycled to 40% DOD
- Three Cells Cycled to 60% DOD
- Unusual Form of Capacity Degradation on Cell Cycled to 65% DOD
- Cell Cycled to 60% DOD at -5ʻC
- Posttest Analysis of a Long-Life NASA Cell
- Capacity Analyses on Cells Cycled to 40% DOD
- Specialized Analytical Techniques Used in These Studies
- Evaluating the Volume Tolerance of an IPV Cell
- Determining Presence and Amount of Positive Precharge
- Using Cell Pressure as a State-of-Charge Indicator
- Evaluating Pressure Trends from Cycling Tests
- Useful Features of Reconditioning
- Expert System for Battery Performance Diagnostics
- Estimating Plaque Corrosion from Pressure Increases
- Topical Studies Addressed
- Classification of Factors Resulting in Abbreviated Cycle Lives
- Performance Degradation as Affected by Recharge Conditions
- Influence of Charging Conditions on Plaque Corrosion
- Electrode Damage in Cells Cycled at 60% DOD and -5ʻC
- Review of Cycling Conditions That Encourage Long Cycle Life
- Factors Affecting Plate Expansion
- Temperature Effects on Plaque Corrosion
- Increased Cycle Life Using 26% KOH as Electrolyte
- Decreased Utilization of Active Material During Cycling
- Capacity Maintenance During Cycling
- Voltage Signatures of Several Different Degradation Mechanisms
- The Importance of Initial Cycling Conditions
- Randomness of Capacity Walkdown
- Two Types of Capacity Walkdown
- Summary of Findings
- Capacity Loss Management
- Maximizing the Usability of Nickel-Hydrogen Cells
- Concluding Remarks.