Reuse and Recycling of Lithium-Ion Power BatteriesКНИГИ » АППАРАТУРА
Название: Reuse and Recycling of Lithium-Ion Power Batteries Издательство:WILEY Автор: Guangjin Zhao Год: July 2017 Количество страниц:450 Язык: English Формат:pdf Размер:10 Mb
A comprehensive guide to the reuse and recycling of lithium-ion power batteries--fundamental concepts, relevant technologies, and business models
Reuse and Recycling of Lithium-Ion Power Batteries explores ways in which retired lithium ion batteries (LIBs) can create long-term, stable profits within a well-designed business operation. Based on a large volume of experimental data collected in the author’s lab, it demonstrates how LIBs reuse can effectively cut the cost of Electric Vehicles (EVs) by extending the service lifetime of the batteries. In addition to the cost benefits, Dr. Guangjin Zhao discusses how recycling and reuse can significantly reduce environmental and safety hazards, thus complying with the core principles of environment protection: recycle, reuse and reduce.
Offering coverage of both the fundamental theory and applied technologies involved in LIB reuse and recycling, the book's contents are based on the simulated and experimental results of a hybrid micro-grid demonstration project and recycling system. In the opening section on battery reuse, Dr. Zhao introduces key concepts, including battery dismantling, sorting, second life prediction, re-packing, system integration and relevant technologies. He then builds on that foundation to explore advanced topics, such as resource recovery, harmless treatment, secondary pollution control, and zero emissions technologies.
Reuse and Recycling of Lithium-Ion Power Batteries:
• Provides timely, in-depth coverage of both the reuse and recycling aspects of lithium-ion batteries
• Is based on extensive simulation and experimental research performed by the author, as well as an extensive review of the current literature on the subject
• Discusses the full range of critical issues, from battery dismantling and sorting to secondary pollution control and zero emissions technologies
• Includes business models and strategies for secondary use and recycling of power lithium-ion batteries
Reuse and Recycling of Lithium-Ion Power Batteries is an indispensable resource for researchers, engineers, and business professionals who work in industries involved in energy storage systems and battery recycling, especially with the manufacture and use (and reuse) of lithium-ion batteries. It is also a valuable supplementary text for advanced undergraduates and postgraduate students studying energy storage, battery recycling, and battery management.
Preface
Introduction
Chapter 1 General development situation of electric vehicles and power batteries
1.1 Brief history of the electric vehicles development
1.2 Types and development tendency of electric vehicles
1.3 The electric vehicles industry ideas and policy at home and abroad
1.4 The basic structure and working principle of electro-chemical power source
1.5 Classification and fundamental parameters of lithium-ion power battery
References
[Summary: chapter 1 introduces the history, types, and development tendency of electric vehicles, and those of industry ideas and policy at home and abroad are also involved. Then, basic conception of electrochemical power source and power battery, and particularly, lithium ion power battery is introduced in detail.]
Chapter 2 Assessment technology platform and its’ application for reuse of power battery
2.1 Retired power batteries and their reuse
2.2 Information system of reuse for retired battery
2.3 Sorting assessment technology of retired battery
2.4 Life prediction and modeling simulation of retired battery
2.5 Performance testing and analysis techniques of retired battery
2.6 Basis and technical requirements for retired battery re-pack
2.7 Energy equilibrium and heat management of retired battery
2.8 Design of box and BMS for retired battery
References
[Summary: chapter 2 introduces research results of sorting, assessment, testing, re-packing, and management of retired batteries and their reuse processes]
Chapter 3 Examples for reuse of power battery
3.1 Research for micro grid simulation platform
3.2 Multidimensional sorting variable of retired battery and target practical reuse application
3.3 Integrated and monitoring system of energy storage based on retired battery
3.4 Application of retired battery in wind-solar-energy storage micro grid
3.5 Battery-operated motor using retired battery
3.6 Development and application of other energy storage systems based on retired battery
3.7 Applicability and technique-economics assessment for reuse of retired power battery
References
[Summary: chapter 3 introduces demonstration and examples for battery reuse in wind-solar-energy storage micro grid, battery-operated motor, and so on. And applicability and technique-economics assessment for battery reuse are also investigated.]
Chapter 4 Resource utilization and harmless treatment of power battery
4.1 The environment and resource concern of spent lithium ion batteries
4.2 The main problems, challenges, and future prospect from legislation and technology for recycling of spent lithium ion batteries
4.3 Pretreatment for recycling of power battery
4.4 Resource utilization and harmless treatment of power battery
4.5 “Three wastes” treatment and waste water “zero discharging”
4.6 Prevention for secondary pollution during recycling battery process
4.7 Mechanical processing equipment for recycling of spent lithium ion batteries
4.8 Automated battery recycling line design
References
[Summary: chapter 4 mainly introduces the environment and resource concern of power battery, the main problems, challenges, research progresses for resource utilization and harmless treatment of power battery, including pretreatment, “three wastes” treatment and waste water “zero discharging”, prevention for secondary pollution, and mechanical processing equipment, and so on.]
Chapter 5 Reuse of power battery and the common safety problems of recovery processes
5.1 Safety assessment for retired battery
5.2 Safety issues on dismantling and re-packing of battery pack
5.3 Safety monitoring techniques for reuse processing
5.4 requirement of safety for spent battery storage
5.5 Safety protection measurement of battery recycling and treatment
References
[Summary: chapter 5 introduces safety issues for battery reuse and recycling in all kinds of processes.]
Chapter 6 Market development of reuse and recycling of power battery
6.1 Exploration of new development ideas for reuse and recovery power battery under “charging” and “battery-swapping” model
6.2 Reuse retired battery - new model for decreasing the cost of battery
6.3 Battery recycling and circular economy
6.4 Designing thought for policy support and marketing development
References
[Summary: chapter 6 introduces designing thought for policy support and marketing development of battery reuse and recycling.]
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