Xiao Lin, Xue Wang, Gangfeng Liu
Recycling of Power Lithium-Ion Batteries
Technology, Equipment, and Policies
Xiao Lin, Xue Wang, Gangfeng Liu
Recycling of Power Lithium-Ion Batteries
Technology, Equipment, and Policies
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Overviews the latest development and trend of the global recycling of lithium-ion power batteries, providing an important resource for scientsits, engineers and government authorities who would like to learn more about this area.
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Overviews the latest development and trend of the global recycling of lithium-ion power batteries, providing an important resource for scientsits, engineers and government authorities who would like to learn more about this area.
Produktdetails
- Produktdetails
- Verlag: Wiley-VCH
- Artikelnr. des Verlages: 1135108 000
- 1. Auflage
- Seitenzahl: 272
- Erscheinungstermin: 24. November 2022
- Englisch
- Abmessung: 248mm x 174mm x 19mm
- Gewicht: 658g
- ISBN-13: 9783527351084
- ISBN-10: 3527351086
- Artikelnr.: 63958338
- Herstellerkennzeichnung
- Wiley-VCH GmbH
- Boschstr. 12
- 69469 Weinheim
- wiley.buha@zeitfracht.de
- www.wiley-vch.de
- +49 (06201) 606-0 (AB ab 18.00 Uhr)
- Verlag: Wiley-VCH
- Artikelnr. des Verlages: 1135108 000
- 1. Auflage
- Seitenzahl: 272
- Erscheinungstermin: 24. November 2022
- Englisch
- Abmessung: 248mm x 174mm x 19mm
- Gewicht: 658g
- ISBN-13: 9783527351084
- ISBN-10: 3527351086
- Artikelnr.: 63958338
- Herstellerkennzeichnung
- Wiley-VCH GmbH
- Boschstr. 12
- 69469 Weinheim
- wiley.buha@zeitfracht.de
- www.wiley-vch.de
- +49 (06201) 606-0 (AB ab 18.00 Uhr)
Xiao Lin, professor level senior engineer, CEO of Botree Tech., China. He received his Ph.D degree from Institute of Process Engineering, Chinese Academy of Sciences. He is Member of the National Technical Committee SAC/TC294 on Discarded or Disused Chemicals Disposal of Standardization Administration of China, National Expert of Scrapped Automobile Branch of China National Resources Recycling Association, and also Member of the National Waste Chemicals Disposal Standard Committee, the first Chinese member of the Key Raw Materials Working Group for Electric Vehicles of The Hybrid and Electric Vehicle Technology Collaboration Program of the International Energy Agency. Dr. Xue Wang obtained her PHD degree in Material Engineering from KU Leuven. Her main research interests are new metallurgical process technology and waste resource treatment technology. She has served successively as vice president of Beijing Ruidow Information Technology Co., Ltd and head of China business development in Technology Metals Team, Noble Group. Dr. Gangfeng Liu got the full scholarship from China government through fierce competition to join Waseda University as PHD candidate, and then he gained a full-time position of associate research fellow in this university after got the doctor degree in 2014. After back to China from 2016, he join Heraeus, an international corporation of PGM maker, as a vice R&D manager of PGM recycling, and then worked in Tianqi Lithium (Jiangsu) Co,. Ltd as R&D leader,now he is working in Botree tech. as R&D leader. Dr. Guobin Zhang used to be a Post-doctor and Assistant Researcher at Koguan School of Law of SJTU. He obtained Jurum Doctor degree in International Law at East China University of Political Science and Law, China, 2012-2015. He used to be a judge and has work experience in domestic court in China. Since 2015, Dr. Zhang has been researching the deep seabed law. He has participated as a key member in numerous research projects concerning Chinese deep seabed legislation. Dr. Zhang has published numerous articles in the field of law of the sea. His recent publications include Legislative Suggestion for Emergency Management of Deep Seabed Mining Activities in the Area (2021), published by Law Science Magazine and a Chinese monograph The Research on the Right of Innocent Passage (2018) published by Shanghai Jiao Tong University Press.
STATUS AND DEVELOPMENT OF LITHIUM-ION POWER BATTERY AND ITS KEY MATERIALS
Overview of Lithium-Ion Power Battery Market
Key Materials and Development of Power Battery
Development and Trends in Lithium-Ion Power Battery
Analysis of the Supply and Demand of Critical Metal Raw Material Resources for Lithium-Ion Power Batteries
BATTERY RECYCLING TECHNOLOGIES AND EQUIPMENT
Overview of Battery Recycling
Introduction of the Battery Recycling Process
Pre-Treatment Technology for Battery Recycling
Hydrometallurgy
Pyrometallurgy
Direct Recycling Technology
Equipment for Battery Recycling
Global Industrial Participants and Their IP Layout
TYPICAL CASES IN INDUSTRY
China
Europe
The US
CURRENT STATUS OF THE LIFE-CYCLE ANALYSIS OF POWER LITHIUM BATTERIES AND THE IMPACT OF RECYCLING ON THEM
Life-Cycle Analysis of the Power Battery Manufacturing Process
Carbon Footprint of Different Power Battery Recycling Processes
Best Power Battery Recycling Technology from a Life Cycle Carbon Footprint Perspective
LAWS, REGULATIONS AND STANDARDS FOR BATTERY RECYCLING
Overview
Laws and Regulations Regarding Battery Recycling in Various Countries
Management Norms Regarding Battery Recycling
Technical Norms Regarding Battery Recycling
Support Policies Regarding Battery Recycling
NEW APPLICATION SCENARIOS FOR EV BATTERIES
Overview
Development of Emerging Business Mode
Sub-Summary
BATTERY RECYCLING TECHNOLOGY OUTLOOK
Green Battery Design for Recycling
Outlook of Recovery System
Overview of Lithium-Ion Power Battery Market
Key Materials and Development of Power Battery
Development and Trends in Lithium-Ion Power Battery
Analysis of the Supply and Demand of Critical Metal Raw Material Resources for Lithium-Ion Power Batteries
BATTERY RECYCLING TECHNOLOGIES AND EQUIPMENT
Overview of Battery Recycling
Introduction of the Battery Recycling Process
Pre-Treatment Technology for Battery Recycling
Hydrometallurgy
Pyrometallurgy
Direct Recycling Technology
Equipment for Battery Recycling
Global Industrial Participants and Their IP Layout
TYPICAL CASES IN INDUSTRY
China
Europe
The US
CURRENT STATUS OF THE LIFE-CYCLE ANALYSIS OF POWER LITHIUM BATTERIES AND THE IMPACT OF RECYCLING ON THEM
Life-Cycle Analysis of the Power Battery Manufacturing Process
Carbon Footprint of Different Power Battery Recycling Processes
Best Power Battery Recycling Technology from a Life Cycle Carbon Footprint Perspective
LAWS, REGULATIONS AND STANDARDS FOR BATTERY RECYCLING
Overview
Laws and Regulations Regarding Battery Recycling in Various Countries
Management Norms Regarding Battery Recycling
Technical Norms Regarding Battery Recycling
Support Policies Regarding Battery Recycling
NEW APPLICATION SCENARIOS FOR EV BATTERIES
Overview
Development of Emerging Business Mode
Sub-Summary
BATTERY RECYCLING TECHNOLOGY OUTLOOK
Green Battery Design for Recycling
Outlook of Recovery System
STATUS AND DEVELOPMENT OF LITHIUM-ION POWER BATTERY AND ITS KEY MATERIALS
Overview of Lithium-Ion Power Battery Market
Key Materials and Development of Power Battery
Development and Trends in Lithium-Ion Power Battery
Analysis of the Supply and Demand of Critical Metal Raw Material Resources for Lithium-Ion Power Batteries
BATTERY RECYCLING TECHNOLOGIES AND EQUIPMENT
Overview of Battery Recycling
Introduction of the Battery Recycling Process
Pre-Treatment Technology for Battery Recycling
Hydrometallurgy
Pyrometallurgy
Direct Recycling Technology
Equipment for Battery Recycling
Global Industrial Participants and Their IP Layout
TYPICAL CASES IN INDUSTRY
China
Europe
The US
CURRENT STATUS OF THE LIFE-CYCLE ANALYSIS OF POWER LITHIUM BATTERIES AND THE IMPACT OF RECYCLING ON THEM
Life-Cycle Analysis of the Power Battery Manufacturing Process
Carbon Footprint of Different Power Battery Recycling Processes
Best Power Battery Recycling Technology from a Life Cycle Carbon Footprint Perspective
LAWS, REGULATIONS AND STANDARDS FOR BATTERY RECYCLING
Overview
Laws and Regulations Regarding Battery Recycling in Various Countries
Management Norms Regarding Battery Recycling
Technical Norms Regarding Battery Recycling
Support Policies Regarding Battery Recycling
NEW APPLICATION SCENARIOS FOR EV BATTERIES
Overview
Development of Emerging Business Mode
Sub-Summary
BATTERY RECYCLING TECHNOLOGY OUTLOOK
Green Battery Design for Recycling
Outlook of Recovery System
Overview of Lithium-Ion Power Battery Market
Key Materials and Development of Power Battery
Development and Trends in Lithium-Ion Power Battery
Analysis of the Supply and Demand of Critical Metal Raw Material Resources for Lithium-Ion Power Batteries
BATTERY RECYCLING TECHNOLOGIES AND EQUIPMENT
Overview of Battery Recycling
Introduction of the Battery Recycling Process
Pre-Treatment Technology for Battery Recycling
Hydrometallurgy
Pyrometallurgy
Direct Recycling Technology
Equipment for Battery Recycling
Global Industrial Participants and Their IP Layout
TYPICAL CASES IN INDUSTRY
China
Europe
The US
CURRENT STATUS OF THE LIFE-CYCLE ANALYSIS OF POWER LITHIUM BATTERIES AND THE IMPACT OF RECYCLING ON THEM
Life-Cycle Analysis of the Power Battery Manufacturing Process
Carbon Footprint of Different Power Battery Recycling Processes
Best Power Battery Recycling Technology from a Life Cycle Carbon Footprint Perspective
LAWS, REGULATIONS AND STANDARDS FOR BATTERY RECYCLING
Overview
Laws and Regulations Regarding Battery Recycling in Various Countries
Management Norms Regarding Battery Recycling
Technical Norms Regarding Battery Recycling
Support Policies Regarding Battery Recycling
NEW APPLICATION SCENARIOS FOR EV BATTERIES
Overview
Development of Emerging Business Mode
Sub-Summary
BATTERY RECYCLING TECHNOLOGY OUTLOOK
Green Battery Design for Recycling
Outlook of Recovery System