Development in valve-regulated lead-acid (VRLA) batteries /

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Balakrishnan, P. G.
Otros Autores: Rethinam, John
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York : Nova Science Publishers, ©2008.
Temas:
Lead-acid batteries.
Storage batteries.
Accumulateurs au plomb.
Accumulateurs.
batteries (electrical)
TECHNOLOGY & ENGINEERING > Electrical.
Lead-acid batteries
Storage batteries
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Ch. 1. History of the Lead-Acid Battery
  • Ch. 2. Development of the Valve-Regulated Lead-Acid Battery
  • Ch. 3. Criteria for the Successful Operation of "Oxygen Cycle" in VRLAB
  • Ch. 4. Grids and Alloys for VR Batteries
  • Ch. 5. Casting of Grids
  • Ch. 6. Paste Mixing and Pasting Operations
  • Ch. 7. Curing
  • Ch. 8. Absorptive Glass Mat Separator (AGM)
  • Ch. 9. Formation
  • Ch. 10. Cadmium Voltage Readings
  • Ch. 11. Assembly of VR Batteries
  • Ch. 12. Containers and Covers
  • Ch. 13. Pressure Vents (Safety Valves)
  • Ch. 14. Assembly of Gelled VR Batteries
  • Ch. 15. Assembly of AGM VR Batteries
  • Ch. 16. Filling of VR Batteries with Electrolyte
  • Ch. 17. Filling of AGM Batteries with Electrolyte
  • Ch. 18. Filling of Gelled VR Batteries with Electrolyte
  • Ch. 19. Conditioning Cycles
  • Ch. 20. Advanced Lead-Acid Battery Consortium
  • Ch. 21. Element Compression
  • Ch. 22. Fast Charge
  • Ch. 23. New Generation Automotive Batteries
  • Ch. 24. Operational Experience
  • Ch. 25. Failures of VRLAB
  • Causes and Remedial Measures
  • Ch. 26. Temperature/Thermal Runaway/Dry Out
  • Ch. 27. Battery Monitoring
  • Ch. 28. Catalyst
  • Ch. 29. Results of Experiments with Catalysts
  • Ch. 30. Failure of Negative Half-block
  • Ch. 31. Premature Capacity Loss [220-229].

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