Lead-Acid Batteries: Science and Technology: A Handbook of Lead-Acid Battery Technology and Its Influence...

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D. Pavlov (Lead-Acid Batteries Department, Institute of Electrochemistry and Energy Systems (IEES), Bulgarian Academy of Sciences, Sofia, Bulgaria)

Lead-Acid Batteries

Science and Technology: A Handbook of Lead-Acid Battery Technology and Its Influence on the...

D. Pavlov (Lead-Acid Batteries Department, Institute of Electrochemistry and Energy Systems (IEES), Bulgarian Academy of Sciences, Sofia, Bulgaria)

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English

Elsevier Science Ltd
17 March 2017

Biochemical engineering; Industrial chemistry; Chemical engineering; Electric motors

Lead-Acid Batteries: Science and Technology: A Handbook of Lead-Acid Battery Technology and Its Influence on the Product, Second Edition presents a comprehensive overview of the technological processes of lead-acid battery manufacture and their influence on performance parameters. The book summarizes current knowledge on lead-acid battery production, presenting it in the form of an integral theory that is supported by ample illustrative material and experimental data that allows technologists and engineers to control technological processes in battery plants. In addition, the book provides university lecturers with a tool for a clear and in-depth presentation of lead-acid battery production in courses.

This updated edition includes new supplementary material (text and illustrations) in chapters 2, 4, 6 and 16, as well as a brand new chapter on the action of carbon as an additive to the negative active material and the utilization of the lead-carbon supercapacitor electrodes. Substantial revisions of other chapters have been made, making the book beneficial for battery researchers, engineers and technologists.

By: D. Pavlov (Lead-Acid Batteries Department Institute of Electrochemistry and Energy Systems (IEES) Bulgarian Academy of Sciences Sofia Bulgaria)
Imprint: Elsevier Science Ltd
Country of Publication: United Kingdom
Edition: 2nd edition
Dimensions: Height: 234mm, Width: 191mm,
Weight: 1.630kg
ISBN: 9780444595522
ISBN 10: 044459552X
Pages: 720
Publication Date: 17 March 2017
Audience: Professional and scholarly , Undergraduate
Format: Hardback
Publisher's Status: Active

Part 1. Fundamentals of Lead–Acid Batteries1. Invention and Development of the Lead–Acid Battery2. Fundamentals of Lead–Acid Batteries Part 2. Materials Used for Lead–Acid Battery Manufacture3. H2SO4 Electrolyte—An Active Material in the Lead–Acid Cell4. Lead Alloys and Grids. Grid Design Principles5. Leady Oxide Part 3. Processes During Paste Preparation and Curing of the Plates6. Pastes and Grid Pasting7. Additives to the Pastes for Positive and Negative Battery Plates8. Curing of Battery Plates Part 4. Plate Formation9. Soaking of Cured Plates Before Formation10. Formation of Positive Lead–Acid Battery Plates11. Processes During Formation of Negative Battery Plates12. Technology of Formation Part 5. Battery Storage and VRLA Batteries13. Processes After Formation of the Plates and During Battery Storage14. Valve-Regulated Lead–Acid (VRLA) Batteries15. Lead–Carbon Electrodes Part 6. Calculation of the Active Materials in a Lead–Acid Cell16. Calculation of the Active Materials for Lead–Acid Cells

Detchko Pavlov is Professor of Electrochemistry and, since 1997, Full Member of the Bulgarian Academy of Sciences. He is one of the founders of the Central Laboratory of Electrochemical Power Sources (CLEPS) (now IEES) at the Bulgarian Academy of Sciences and has been Head of the Lead Acid Batteries Department at this Institute for over 45 years since its establishment in 1967. His major scientific achievements are in the field of electrochemistry of lead; disclosing the structure of the lead and lead dioxide active masses; elucidating the mechanism of the processes involved in the technology of lead-acid battery manufacture and operation, as well as of the oxygen cycle reactions in VRLAB. His recent research efforts have been focused on evaluation of the effects of carbon additives to the negative plates and identification of the mechanism(s) of their action.