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Table of Contents
Intro
Contents
Design of a Proper Recycling Process for Small-Sized E-Waste
1 Introduction
2 Mobile Phones
3 LED Lamps
4 Computers
5 Electrical Wires and Cables
6 Final Remarks
References
Sustainable Bioprospecting of Electronic Waste via Omics-Aided Biometallurgy
1 Introduction
2 Global Distribution of E-waste
2.1 E-waste Scenario in West Africa
3 Composition and Nature of E-waste
3.1 Precious Metals
3.2 Rare Earth Elements (REE)
4 Biometallurgy
4.1 Approaches Adopted in Biometallurgy
4.2 The Biometallurgical Process
5 Bioprospecting of Metal Recovery Microorganisms Using Omics Technologies
5.1 Application of Omics in Studying Bioleaching Communities
5.2 Omics in Rewiring the Metabolic Pathways
6 Conclusion
References
Diverse Technological Initiatives for E-Waste Management and Its Impact on Ecosystem
1 Introduction
2 Categories of E-Waste
3 Existence Elements in E-Waste
4 Generation of E-Waste at Global Level
5 Recovering of Valuable Metals from E-Waste
6 Biotechnological Recycling of E-Wastes
7 Tokyo Olympic 2020 Medals Made from Electronic Scrap: An Initiative for an Innovative Future for All
8 Impacts of E-Waste on the Ecosystem
8.1 Atmospheric Environment
8.2 Terrestrial Environment
8.3 Aquatic Environment
9 Impacts of E-Waste on Human Health
10 E-Waste Management Rules
11 Approaches for Regulating of E-Waste
11.1 Life Cycle Assessment (LCA)
11.2 Material Flow Analysis (MFA)
11.3 Extended Producer Responsibility (EPR)
11.4 Multi-criteria Analysis (MCA)
12 Biotechnological Approach of E-Waste Recycling and Business Opportunities
13 Conclusion
3.4 Challenges and Opportunities in Substituting Toxicants in E-products
3.5 Action to Replace PVC and PBDE
4 Future Prospective
References
Overview of E-Waste Reverse Logistics: How to Promote the Return of Electronic Waste to the Production Chain
1 Introduction
2 Reverse Logistics System in the World
3 Reverse Logistics System in Brazil
4 Recycling and Processing of WEEE-Private Companies and Cooperatives
5 Final Remarks
References
E-Plastic Waste Use as Coarse-Aggregate in Concrete
1 Introduction to E-Plastic Wastes
Contents
Design of a Proper Recycling Process for Small-Sized E-Waste
1 Introduction
2 Mobile Phones
3 LED Lamps
4 Computers
5 Electrical Wires and Cables
6 Final Remarks
References
Sustainable Bioprospecting of Electronic Waste via Omics-Aided Biometallurgy
1 Introduction
2 Global Distribution of E-waste
2.1 E-waste Scenario in West Africa
3 Composition and Nature of E-waste
3.1 Precious Metals
3.2 Rare Earth Elements (REE)
4 Biometallurgy
4.1 Approaches Adopted in Biometallurgy
4.2 The Biometallurgical Process
5 Bioprospecting of Metal Recovery Microorganisms Using Omics Technologies
5.1 Application of Omics in Studying Bioleaching Communities
5.2 Omics in Rewiring the Metabolic Pathways
6 Conclusion
References
Diverse Technological Initiatives for E-Waste Management and Its Impact on Ecosystem
1 Introduction
2 Categories of E-Waste
3 Existence Elements in E-Waste
4 Generation of E-Waste at Global Level
5 Recovering of Valuable Metals from E-Waste
6 Biotechnological Recycling of E-Wastes
7 Tokyo Olympic 2020 Medals Made from Electronic Scrap: An Initiative for an Innovative Future for All
8 Impacts of E-Waste on the Ecosystem
8.1 Atmospheric Environment
8.2 Terrestrial Environment
8.3 Aquatic Environment
9 Impacts of E-Waste on Human Health
10 E-Waste Management Rules
11 Approaches for Regulating of E-Waste
11.1 Life Cycle Assessment (LCA)
11.2 Material Flow Analysis (MFA)
11.3 Extended Producer Responsibility (EPR)
11.4 Multi-criteria Analysis (MCA)
12 Biotechnological Approach of E-Waste Recycling and Business Opportunities
13 Conclusion
3.4 Challenges and Opportunities in Substituting Toxicants in E-products
3.5 Action to Replace PVC and PBDE
4 Future Prospective
References
Overview of E-Waste Reverse Logistics: How to Promote the Return of Electronic Waste to the Production Chain
1 Introduction
2 Reverse Logistics System in the World
3 Reverse Logistics System in Brazil
4 Recycling and Processing of WEEE-Private Companies and Cooperatives
5 Final Remarks
References
E-Plastic Waste Use as Coarse-Aggregate in Concrete
1 Introduction to E-Plastic Wastes