Lead-Acid Batteries for Future Automobiles

Lead-Acid Batteries for Future Automobiles

by David A. J. Rand Dr. (Editor), Eckhard Karden Dr. (Editor), Patrick T. Moseley Dr. (Editor), Jürgen Garche Professor (Editor)

Synopsis

Lead-Acid Batteries for Future Automobiles provides an overview on the innovations that were recently introduced in automotive lead-acid batteries and other aspects of current research. Innovative concepts are presented, some of which aim to make lead-acid technology a candidate for higher levels of powertrain hybridization, namely 48-volt mild or high-volt full hybrids. 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.

$243.43

Quantity

20+ in stock

More Information

Format: Hardcover
Pages: 706
Publisher: Elsevier
Published: 01 Mar 2017

ISBN 10: 0444637001
ISBN 13: 9780444637000
Book Overview: Describes how lead-based battery systems could dominate in the micro and mild hybrid EV markets, exploring obstacles and technical developments

Author Bio
Prof. Dr. Jurgen Garche has more than 40 years of experience in battery and fuel cell research & development. In his academic career the focus was on material research. Thereafter, he worked on and directed cell and system development of conventional (LAB, NiCd, NiMH) and advanced (Li-Ion, NaNiCl2, Redox-Flow) batteries. His experience includes also fuel cells (mainly low temperature FCs) and supercaps. He established the battery & FC division of the ZSW in Ulm (Germany), an industry related R&D institute with about 100 scientists and technicians. His interest in battery safety goes back to the work with the very large battery safety testing center of the ZSW. In 2004 he founded the FC&Battery consulting office FCBAT; furthermore he is a senior professor at Ulm University. Eckhard received his diploma in Physics 1995 and his Ph.D. in Electrical Engineering 2001 from RWTH Aachen University of Technology with projects on CAE modeling and electrochemical impedance spectroscopy of lead-acid batteries. Having spent two and a half year as senior engineer at ISEA Institute for Power Electronics and Electrical Drives of the same university, he joined Ford Motor Company in the newly established Research and Innovation Centre (RIC) Aachen. He has been focusing on batteries for low-voltage power supply, micro, and mild hybrid applications. As a Technical Specialist, he is working closely with Ford's global engineering centres and has been involved in the conceptual work, specifications, and component verification plans for the enhanced flooded batteries, battery sensors, and charging strategies that went into Ford's first generations of micro-hybrid vehicles. He is an active member of German, European, and international standardization working groups for stop/start and micro-hybrid batteries. Pat was awarded a Ph. D. for crystal structure analysis in 1968 by the University of Durham, U.K., and a D. Sc. for research publications in materials science, by the same university, in 1994. He worked for 23 years at the Harwell Laboratory of the U.K. Atomic Energy Authority where he brought a background of crystal structure and materials chemistry to the study of lead-acid and other varieties of battery, thus supplementing the traditional electrochemical emphasis of the subject. From1995 he was Manager of Electrochemistry at the International Lead Zinc Research Organization in North Carolina and Program Manager of the Advanced Lead-Acid Battery Consortium. In 2005 he also became President of the Consortium. Dr. Moseley was one of the editors of the Journal of Power Sources for 25 years from 1989 to 2014. In 2008 he was awarded the Gaston Plante medal by the Bulgarian Academy of Sciences. Dr David Rand AM PhD ScD FTSE was educated at the University of Cambridge where he conducted research on fuel cells. In 1969, he joined the Australian Government's CSIRO laboratories in Melbourne. After further exploration of fuel cell mechanisms and then electrochemical studies of mineral beneficiation, David formed the CSIRO Novel Battery Technologies Group in the late 1970s and remained its leader until 2003. He was one of the six scientists who established the Advanced Lead-Acid Battery Consortium in 1992 and served as its Manager in 1994. As a Chief Research Scientist, David fulfilled the role of CSIRO's scientific advisor on hydrogen and renewable energy until his retirement in 2008. He remains active within the organisation as an Honorary Research Fellow, and has served as the Chief Energy Scientist of the World Solar Challenge since its inception in 1987. David was awarded the Faraday Medal by the Royal Society of Chemistry (UK) in 1991 and the UNESCO Gaston Plante Medal by the Bulgarian Academy of Sciences in 1996. He was elected a Fellow of the Australian Academy of Technological Sciences and Engineering in 1998, and became a Member of the Order of Australia in 2013 for service to science and technological development in the field of energy storage.