Lead-Acid Batteries for Future Automobiles
Editat de Jürgen Garche, Eckhard Karden, Patrick T. Moseley, David A. J. Randen Limba Engleză Hardback – 8 mar 2017
Lead-acid batteries continue to dominate the market as storage devices for automotive starting and power supply systems, but are facing competition from alternative storage technologies and being challenged by new application requirements, particularly related to new electric vehicle functions and powertrain electrification.
- Presents an overview of development trends for future automobiles and the demands that they place on the battery
- Describes how to adapt LABs for use in micro and mild hybrid EVs via collector construction and materials, via carbon additives, via new cell construction (bipolar), and via LAB hybrids with Li-ion and supercap systems
- System integration of LABs into vehicle power-supply and hybridization concepts
- Short description of competitive battery technologies
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Specificații
ISBN-13: 9780444637000
ISBN-10: 0444637001
Pagini: 706
Dimensiuni: 191 x 235 x 40 mm
Greutate: 1.42 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0444637001
Pagini: 706
Dimensiuni: 191 x 235 x 40 mm
Greutate: 1.42 kg
Editura: ELSEVIER SCIENCE
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Public țintă
The main audience is the R&D community ie, chemists, chemical engineers who must develop a LAB with high power, lifetime and low cost. The book mainly has a scientific character but it also gives practical guidelines for applications of LABs in hybrid cars, downsizing concepts and standards/tests.Cuprins
About the Editors
Patrick T. Moseley, Eckhard Karden, David A. J. Rand and Jürgen Garche
Introduction
Jürgen Garche
Abbreviations, Acronyms, Initialisms
Patrick T. Moseley, Eckhard Karden, David A. J. Rand and Jürgen Garche
I Overview
1. Development trends for future automobiles and their demand on the battery
Eckhard Karden
2. Overview of batteries for future automobiles
Peter Kurzweil and Jürgen Garche
3. Lead–acid battery fundamentals
David A. J. Rand and Patrick T. Moseley
4. Current research topics for lead-acid batteries
Matthias Kuipers, Dirk Uwe Sauer, Monika Kwiecin and Philipp Schröer
II Battery Technology
5. Flooded SLI and Enhanced Flooded Batteries (EFB): State of the art
Manfred Gelbke and Christian Mondoloni
6. Automotive absorbent glass mat (AGM) lead–acid batteries: state-of-the-art Automotive absorbent glass mat (AGM) lead–acid batteries: State of the art
Joern Albers and Eberhard Meissner
7. Performance-enhancing materials for lead–acid battery negative plates
Patrick T. Moseley, David A. J. Rand and Ken Peters
8. Positive Active Materials for lead-acid battery plates
Rainer Wagner
9. Lead current collectors for lead-acid batteries
R David Prengaman
10. Alternative current collectors
Angel Kirchev
11. Cell design for high-rate operation
Norbert Maleschitz
12. Towards sustainable road transport with the UltraBattery
Lan Lam, Jun Furukawa, K. Smith and David A. J. Rand
III Application Technology
13. Lead-acid battery operation in micro-hybrid and electrified vehicles
Christopher Chumchal and Dennis Kurzweil
14. Monitoring techniques for 12 V lead-acid batteries in automobiles
Eberhard Schoch, Joachim Kizler, Clemens Schmucker, Britta Kronenberg, Marcus Bremmer, Jürgen Schöttle, Michel Ruch and Martin Königsmann
15. Dual battery systems for 12-Volt automotive power supply
Armin Warm and Matthew Denlinger
16. Basics on lead–acid battery modeling and simulation
Moritz Huck, Dirk Uwe Sauer, Julia Badeda, Jan Kabzinski and Jonathan Wirth
17. Lead-acid batteries for heavy trucks
Jean Paul Douady, Liao Wang, Jean-François Sarrau, Samia Fouache and Marleen Boucoiran
18. Lead–acid batteries for E-bicycles and E-scooters
Jürgen Garche
IV Product Life Cycle
19. Standards and Tests for lead-acid batteries in automotive applications
Torsten Hildebrandt, Osada Akira, Shawn Peng and Timothy Moyer
20. Recycling concepts for lead-acid batteries
R David Prengaman and Abbas H. Mirza
V Outlook
21. Lead–acid batteries for future automobiles: status and prospects
Patrick T. Moseley, Jürgen Garche and David A. J. Rand
Patrick T. Moseley, Eckhard Karden, David A. J. Rand and Jürgen Garche
Introduction
Jürgen Garche
Abbreviations, Acronyms, Initialisms
Patrick T. Moseley, Eckhard Karden, David A. J. Rand and Jürgen Garche
I Overview
1. Development trends for future automobiles and their demand on the battery
Eckhard Karden
2. Overview of batteries for future automobiles
Peter Kurzweil and Jürgen Garche
3. Lead–acid battery fundamentals
David A. J. Rand and Patrick T. Moseley
4. Current research topics for lead-acid batteries
Matthias Kuipers, Dirk Uwe Sauer, Monika Kwiecin and Philipp Schröer
II Battery Technology
5. Flooded SLI and Enhanced Flooded Batteries (EFB): State of the art
Manfred Gelbke and Christian Mondoloni
6. Automotive absorbent glass mat (AGM) lead–acid batteries: state-of-the-art Automotive absorbent glass mat (AGM) lead–acid batteries: State of the art
Joern Albers and Eberhard Meissner
7. Performance-enhancing materials for lead–acid battery negative plates
Patrick T. Moseley, David A. J. Rand and Ken Peters
8. Positive Active Materials for lead-acid battery plates
Rainer Wagner
9. Lead current collectors for lead-acid batteries
R David Prengaman
10. Alternative current collectors
Angel Kirchev
11. Cell design for high-rate operation
Norbert Maleschitz
12. Towards sustainable road transport with the UltraBattery
Lan Lam, Jun Furukawa, K. Smith and David A. J. Rand
III Application Technology
13. Lead-acid battery operation in micro-hybrid and electrified vehicles
Christopher Chumchal and Dennis Kurzweil
14. Monitoring techniques for 12 V lead-acid batteries in automobiles
Eberhard Schoch, Joachim Kizler, Clemens Schmucker, Britta Kronenberg, Marcus Bremmer, Jürgen Schöttle, Michel Ruch and Martin Königsmann
15. Dual battery systems for 12-Volt automotive power supply
Armin Warm and Matthew Denlinger
16. Basics on lead–acid battery modeling and simulation
Moritz Huck, Dirk Uwe Sauer, Julia Badeda, Jan Kabzinski and Jonathan Wirth
17. Lead-acid batteries for heavy trucks
Jean Paul Douady, Liao Wang, Jean-François Sarrau, Samia Fouache and Marleen Boucoiran
18. Lead–acid batteries for E-bicycles and E-scooters
Jürgen Garche
IV Product Life Cycle
19. Standards and Tests for lead-acid batteries in automotive applications
Torsten Hildebrandt, Osada Akira, Shawn Peng and Timothy Moyer
20. Recycling concepts for lead-acid batteries
R David Prengaman and Abbas H. Mirza
V Outlook
21. Lead–acid batteries for future automobiles: status and prospects
Patrick T. Moseley, Jürgen Garche and David A. J. Rand