عنوان

Recycling of spent lithium-ion batteries :

3030318338

3030318346

3030318354

3030318362

9783030318338

9783030318345

9783030318352

9783030318369

9783030318338

Recycling of spent lithium-ion batteries :

[Book]

processing methods and environmental impacts /

Liang An, editor.

Cham :

Springer,

2019.

1 online resource (219 pages)

6.1 Fungal Metabolite: Organic Acids

Intro; Preface; Contents; Recycling Technology and Principle of Spent Lithium-Ion Battery; 1 Introduction; 2 Environmental Risk of Spent Lithium-Ion Battery; 3 Treatment of Spent Lithium-Ion Battery; 3.1 Separation of Electrode Materials for Spent Lithium-Ion Batteries; 3.2 High-Value Refining Technology; 4 Cascade Utilization of Spent LIBs; References; Hydrometallurgically Recycling Spent Lithium-Ion Batteries; 1 Introduction; 2 Leaching; 2.1 Leaching Mechanism; 2.2 Inorganic Acid Leaching; 2.3 H2SO4 Leaching; 2.4 HCl Leaching; 2.5 Other Inorganic Acid Leaching; 2.6 Organic Acid Leaching

2.7 Alkaline Leaching3 Purification and Recovery; 3.1 Solvent Extraction; 3.2 Chemical Precipitation and Electrodeposition; 3.3 Regeneration; References; Pyrometallurgical Routes for the Recycling of Spent Lithium-Ion Batteries; 1 Introduction; 2 Key Components of LIBs; 3 Calcination and Roasting; 3.1 Calcination; 3.2 Roasting; 4 Oxide Reduction and Smelting; 4.1 Oxide Reduction; 4.2 Smelting; 5 Metal Refining; 5.1 Metal-Slag Process; 5.2 Metal-Metal Process; 5.3 Metal-gas Process; 6 Regeneration of Cathode Materials; 7 Furnaces; 8 Conclusions; References

4.1 Re-Preparation of Cathode Materials by Co-precipitation Method4.2 Re-Preparation of Cathode Materials by Sol-Gel Method; 4.3 Direct Regeneration of Cathode Materials; 4.4 Discussion of Current Regeneration Processes; 5 Conclusions; References; High Value-Added Products From Recycling of Spent Lithium-Ion Batteries; 1 Introduction; 2 Pure Metals and Metal Compounds; 2.1 Pure Metals; 2.2 Metal Compounds; 3 Electrode Materials; 3.1 LiCoO2 Cathode Material; 3.2 Li(Co-Mn-Ni)O2 Cathode; 3.3 LiFePO4 Cathode; 4 Other Functional Materials; 4.1 Magnetic Materials; 4.2 Electrocatalytic Materials

4.3 Photocatalytic Materials4.4 Adsorbents; 5 Summary and Outlook; References; Bio-hydrometallurgical Methods For Recycling Spent Lithium-Ion Batteries; 1 Introduction; 2 Spent LIBs Management; 2.1 Environmental Aspect; 2.2 Economical Aspect; 3 Recycling Methods of Spent LIBs; 3.1 Comparison of Recycling Methods; 4 Bioleaching (Microbial-Based Recovery); 4.1 Adaptation: A Tool for Improving One-Step and Two-Step Bioleaching; 5 Microbes in Bioleaching; 5.1 Autotrophic Bacteria; 5.2 Heterotrophic Bacteria and Fungi; 5.3 Comparison of Bacterial and Fungal Leaching; 6 Fungal Leaching

Bio-hydrometallurgically Treatment of Spent Lithium-Ion Batteries1 Introduction; 2 Mechanisms of Bio-Hydrometallurgy; 3 Impacts on Recovery Efficiency; 4 Pros and Cons of Bio-Hydrometallurgy; 5 Summary and Outlook; References; Hydrometallurgical Processes for Valuable Metals Recycling from Spent Lithium-Ion Batteries; 1 Introduction; 2 Leaching Processes; 2.1 Chemical Leaching; 2.2 Bioleaching Process; 3 Separation and Recovery Processes; 3.1 Chemical Precipitation; 3.2 Solvent Extraction; 3.3 Other Separation Methods; 4 Regeneration of Cathode Materials

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This book presents a state-of-the-art review of recent advances in the recycling of spent lithium-ion batteries. The topics covered include: introduction to the structure of lithium-ion batteries; development of battery-powered electric vehicles; potential environmental impact of spent lithium-ion batteries; pretreatment of spent lithium-ion batteries for recycling processing; pyrometallurgical processing for recycling spent lithium-ion batteries; hydrometallurgical processing for recycling spent lithium-ion batteries; direct processing for recycling spent lithium-ion batteries; high value-added products from recycling of spent lithium-ion batteries; and effects of recycling of spent lithium-ion batteries on environmental burdens. The book provides an essential reference resource for professors, researchers, and policymakers in academia, industry, and government around the globe.

Springer Nature

com.springer.onix.9783030318345

Recycling of Spent Lithium-Ion Batteries : Processing Methods and Environmental Impacts.

9783030318338

Lithium ion batteries-- Recycling.

Energy storage.

Environmental sciences.

Force and energy.

Materials science.

Sustainable development.

TEC021000

TGM

TGM

An, Liang.

20200823094325.0

pn

[Book]

Y