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Author: Bart Kolodziejczyk
Publisher: SAE International
ISBN: 1468606115
Category : Technology & Engineering
Languages : en
Pages : 28
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Book Description
There is an urgent need to decarbonize various industry sectors, including transportation; however, this is difficult to achieve when relying solely on today’s lithium-ion (Li-ion) battery technology. A lack of sufficient supply of critical materials—including lithium, nickel, and cobalt—is a major driving force behind research, development, and commercialization of new battery chemistries that can support this energy transition. Many emerging chemistries do not face the same supply, safety, and often durability challenges associated with Li-ion technology, yet these solutions are still very immature and require significant development effort to be commercialized. Emerging Automotive Battery Chemistries: Hedging Market identifies and evaluates various chemistries suitable for deployment in the automotive industry and describes advantages, disadvantages, and development challenges for each identified technology. Additionally, it outlines development timelines, contending that, to benefit from these new technologies in a decade or so, commercialization needs to begin today (e.g., de-risking critical material supply chains, developing circular approaches). The report also proposes policy interventions to enable developments of these new chemistries and to allow those immature technologies to compete with well-established Li-ion batteries. Click here to access the full SAE EDGETM Research Report portfolio. https://doi.org/10.4271/EPR2023008
Author: Bart Kolodziejczyk
Publisher: SAE International
ISBN: 1468606115
Category : Technology & Engineering
Languages : en
Pages : 28
Get Book Here
Book Description
There is an urgent need to decarbonize various industry sectors, including transportation; however, this is difficult to achieve when relying solely on today’s lithium-ion (Li-ion) battery technology. A lack of sufficient supply of critical materials—including lithium, nickel, and cobalt—is a major driving force behind research, development, and commercialization of new battery chemistries that can support this energy transition. Many emerging chemistries do not face the same supply, safety, and often durability challenges associated with Li-ion technology, yet these solutions are still very immature and require significant development effort to be commercialized. Emerging Automotive Battery Chemistries: Hedging Market identifies and evaluates various chemistries suitable for deployment in the automotive industry and describes advantages, disadvantages, and development challenges for each identified technology. Additionally, it outlines development timelines, contending that, to benefit from these new technologies in a decade or so, commercialization needs to begin today (e.g., de-risking critical material supply chains, developing circular approaches). The report also proposes policy interventions to enable developments of these new chemistries and to allow those immature technologies to compete with well-established Li-ion batteries. Click here to access the full SAE EDGETM Research Report portfolio. https://doi.org/10.4271/EPR2023008
Author: Ali Eftekhari
Publisher: Royal Society of Chemistry
ISBN: 1788014189
Category : Science
Languages : en
Pages : 384
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Book Description
This book collects authoritative perspectives from global experts to project the emerging opportunities in the field of lithium-ion batteries.
Author: Gianfranco Pistoia
Publisher: Newnes
ISBN: 0444595163
Category : Technology & Engineering
Languages : en
Pages : 659
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Book Description
Lithium-Ion Batteries features an in-depth description of different lithium-ion applications, including important features such as safety and reliability. This title acquaints readers with the numerous and often consumer-oriented applications of this widespread battery type. Lithium-Ion Batteries also explores the concepts of nanostructured materials, as well as the importance of battery management systems. This handbook is an invaluable resource for electrochemical engineers and battery and fuel cell experts everywhere, from research institutions and universities to a worldwide array of professional industries. - Contains all applications of consumer and industrial lithium-ion batteries, including reviews, in a single volume - Features contributions from the world's leading industry and research experts - Presents executive summaries of specific case studies - Covers information on basic research and application approaches
Author: John T. Warner
Publisher: Elsevier
ISBN: 0443138087
Category : Technology & Engineering
Languages : en
Pages : 472
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Book Description
The Handbook of Lithium-Ion Battery Pack Design: Chemistry, Components, Types and Terminology,?Second Edition provides a clear and concise explanation of EV and Li-ion batteries for readers that are new to the field. The second edition expands and updates all topics covered in the original book, adding more details to all existing chapters and including major updates to align with all of the rapid changes the industry has experienced over the past few years. This handbook offers a layman's explanation of the history of vehicle electrification and battery technology, describing the various terminology and acronyms and explaining how to do simple calculations that can be used in determining basic battery sizing, capacity, voltage, and energy. By the end of this book the reader will have a solid understanding of the terminology around Li-ion batteries and be able to undertake simple battery calculations. The book is immensely useful to beginning and experienced engineers alike who are moving into the battery field. Li-ion batteries are one of the most unique systems in automobiles today in that they combine multiple engineering disciplines, yet most engineering programs focus on only a single engineering field. This book provides the reader with a reference to the history, terminology and design criteria needed to understand the Li-ion battery and to successfully lay out a new battery concept. Whether you are an electrical engineer, a mechanical engineer or a chemist, this book will help you better appreciate the inter-relationships between the various battery engineering fields that are required to understand the battery as an Energy Storage System. It gives great insights for readers ranging from engineers to sales, marketing, management, leadership, investors, and government officials. - Adds a brief history of battery technology and its evolution to current technologies? - Expands and updates the chemistry to include the latest types - Discusses thermal runaway and cascading failure mitigation technologies? - Expands and updates the descriptions of the battery module and pack components and systems?? - Adds description of the manufacturing processes for cells, modules, and packs? - Introduces and discusses new topics such as battery-as-a-service, cell to pack and cell to chassis designs, and wireless BMS?
Author: Katerina E. Aifantis
Publisher: John Wiley & Sons
ISBN: 9783527630028
Category : Technology & Engineering
Languages : en
Pages : 296
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Book Description
Materials Engineering for High Density Energy Storage provides first-hand knowledge about the design of safe and powerful batteries and the methods and approaches for enhancing the performance of next-generation batteries. The book explores how the innovative approaches currently employed, including thin films, nanoparticles and nanocomposites, are paving new ways to performance improvement. The topic's tremendous application potential will appeal to a broad audience, including materials scientists, physicists, electrochemists, libraries, and graduate students.
Author: John T. Warner
Publisher: Elsevier
ISBN: 0128147792
Category : Science
Languages : en
Pages : 356
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Book Description
Lithium-Ion Battery Chemistries: A Primer offers a simple description on how different lithium-ion battery chemistries work, along with their differences. It includes a refresher on the basics of electrochemistry and thermodynamics, and an understanding of the fundamental processes that occur in the lithium-ion battery. Furthermore, it reviews each of the major chemistries that are in use today, including Lithium-Iron Phosphate (LFP), Lithium-Cobalt Oxide (LCO), Lithium Manganese Oxide (LMO), Lithium-Nickel Manganese Cobalt (NMC), Lithium-Nickel Cobalt Aluminium (NCA), and Lithium-Titanate Oxide (LTO) and outlines the different types of anodes, including carbon (graphite, hard carbon, soft carbon, graphene), silicon, and tin. In addition, the book offers performance comparisons of different chemistries to help users select the right battery for the right application and provides explanations on why different chemistries have different performances and capabilities. Finally, it offers a brief look at emerging and beyond-lithium chemistries, including lithium-air, zinc-air, aluminum air, solid-state, lithium-sulfur, lithium-glass, and lithium-metal. - Presents a refresher on the basics of electrochemistry and thermodynamics, along with simple graphics and images of complex concepts - Provides a clear-and-concise description of lithium-ion chemistries and how they operate - Covers the fundamental processes that occur in lithium-ion batteries - Includes a detailed review of current and future chemistries
Author: Jack Ewing
Publisher: Corgi
ISBN: 9780552173100
Category : Biography & Autobiography
Languages : en
Pages : 0
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Book Description
A shocking expose of Volkswagen's fraud by the New York Times reporter who covered the scandal. Updated with a New Afterword by the Author. When news of Volkswagen's clean diesel fraud first broke in September 2015, it sent shockwaves around the world. Overnight, the company long associated with quality, reliability and trust became a universal symbol of greed and deception. Consumers were outraged, investors panicked, the company embarrassed and facing bankruptcy. As lawsuits and criminal investigations piled up, by August 2016 VW had settled with American regulators and car-owners for $15 billion, with additional fines and claims still looming. In Faster, Higher, Farther, Jack Ewing rips the lid off the scandal. He describes VW's rise from "the people's car" during the Nazi era to one of Germany's most prestigious and important global brands, touted for being "green." He paints vivid portraits of Volkswagen chairman Ferdinand Piech and chief executive Martin Winterkorn, arguing that their unremitting ambition drove employees, working feverishly in pursuit of impossible sales targets, to illegal methods. With unprecedented access to key players and a ringside seat during the course of the legal proceedings, Faster, Higher, Farther reveals how the succeed-at-all-costs culture prevalent in modern boardrooms led to one of corporate history's farthest-reaching cases of fraud-with potentially devastating consequences. As the future of one of the world's biggest companies remains uncertain, this is the extraordinary story of Volkswagen's downfall.
Author: Jürgen Garche
Publisher: Elsevier
ISBN: 0444637036
Category : Technology & Engineering
Languages : en
Pages : 708
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Book Description
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. - 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
Author: Seth Fletcher
Publisher: Hill and Wang
ISBN: 1429922915
Category : Science
Languages : en
Pages : 274
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Book Description
Lithium batteries may hold the key to an environmentally sustainable, oil-independent future. From electric cars to a "smart" power grid that can actually store electricity, letting us harness the powers of the sun and the wind and use them when we need them, lithium—a metal half as dense as water, found primarily in some of the most uninhabitable places on earth—has the potential to set us on a path toward a low-carbon energy economy. In Bottled Lightning, the science reporter Seth Fletcher takes us on a fascinating journey, from the salt flats of Bolivia to the labs of MIT and Stanford, from the turmoil at GM to cutting-edge lithium-ion battery start-ups, introducing us to the key players and ideas in an industry with the power to reshape the world. Lithium is the thread that ties together many key stories of our time: the environmental movement; the American auto industry, staking its revival on the electrification of cars and trucks; the struggle between first-world countries in need of natural resources and the impoverished countries where those resources are found; and the overwhelming popularity of the portable, Internet-connected gadgets that are changing the way we communicate. With nearly limitless possibilities, the promise of lithium offers new hope to a foundering American economy desperately searching for a green-tech boom to revive it.
Author: Alexander Thaler
Publisher: Springer Science & Business Media
ISBN: 3319025236
Category : Technology & Engineering
Languages : en
Pages : 135
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Book Description
The use of electrochemical energy storage systems in automotive applications also involves new requirements for modeling these systems, especially in terms of model depth and model quality. Currently, mainly simple application-oriented models are used to describe the physical behavior of batteries. This book provides a step beyond of state-of-the-art modeling showing various different approaches covering following aspects: system safety, misuse behavior (crash, thermal runaway), battery state estimation and electrochemical modeling with the needed analysis (pre/post mortem). All this different approaches are developed to support the overall integration process from a multidisciplinary point-of-view and depict their further enhancements to this process.
