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Description
A comprehensive guide to lithium-ion battery recycling, this book uniquely combines advanced technologies, lifecycle insights, and industrial case studies. 1 INTRODUCTION
2 PRE-TREATMENT TECHNOLOGIES
2.1 Battery Structure and Classification
2.2 Detection and Evaluation
2.3 Safe Discharge
2.4 Disassembly and Crushing
2.5 Component separations
3 CASCADE UTILIZATIONS
3.1 Scene matching
3.2 Balancing strategies
3.3 Security controlling
3.4 Equipment exploring
4 METALLURGICAL EXTRACTION TECHNOLOGIES
4.1 Hydrometallurgical extraction technologies
4.2 Pyrometallurgical extraction technologies
5 DIRECT REGENERATION TECHNOLOGIES
5.1 Solid-state regeneration
5.2 Liquid-phase regeneration
5.3 New-type regeneration
5.4 High-value regenerations in other fields
6 POLLUTION PREVENTION AND FULL LIFE CYCLE ASSESSMENT
6.1 Pollution prevention
6.2 Full life cycle assessment
7 PROSPECTS AND OUTLOOK
8 CONCLUDING REGARDS
Peng Ge is a professor at School of Minerals Processing and Bioengineering, Central South University, Changsha, China. Prof. Ge?s primary research focuses centers on efficient recycling and green regeneration technologies for spent batteries, particularly lithium-ion batteries. His research group is dedicated to developing innovative physical, chemical, and metallurgical approaches (such as hydrometallurgy, pyrometallurgy, and direct regeneration) to achieve the efficient and environmentally friendly extraction of valuable metals (e.g., lithium, cobalt, nickel, manganese) from spent batteries.
Yue Yang, Ph.D. in Engineering, is a professor and doctoral advisor. His research focuses on the recycling and value-added utilization of secondary resources in non-ferrous metals. He has been selected for the National High-Level Young Talent Program, the China Association for Science and Technology?s ?Young Talent Support Project,? and the Excellent Youth Fund of the Hunan Provincial Natural Science Foundation.
