Battery Passport

Xue Wang, PhD, is Principal Analyst of Botree Cycling. She obtained her doctorate in Material Engineering from KU Leuven. Her research is focused on new metallurgical process technology and waste resource treatment technology. Responsible for the routine operations of the IEA HEV TCP Task 48 Battery Swapping, successfully organized four online workshops in 2023 focusing on battery swapping for electric two and three-wheelers, commercial vehicles, passenger EVs, as well as maritime and aviation.

1. Introduction to the Battery Passport
1.1 Overview of the Battery Passport Concept
1.2 Significance in Sustainable Energy
1.3 Battery Passport in the Context of the Circular Economy
1.4 Scope and Structure of the Book
1.5 Importance of the Battery Passport in Modern Times
1.6 Preliminary Considerations and Challenges

2. Battery Passport Standards
2.1 Development of Standards
2.2 Key Components of Battery Passport Standards
2.3 Standardization Bodies and Their Roles
2.4 Compliance with Standards
2.5 Challenges in Standardization
2.6 Impact of Standards on Global Trade and Environmental Policies
2.7 Looking Forward: The Future of Standardization in Battery Passports

3. Technology Behind the Battery Passport
3.1 Overview of Technological Foundations
3.2 Data Collection Methods and Technologies
3.3 Digital Tracking and Security
3.4 Interoperability and System Integration
3.5 Data Management and Analysis
3.6 User Interface and Accessibility
3.7 Detecting Defective Cells in EV Battery Modules
3.8 Challenges and Future Developments in Technology
3.9 Case Studies: Technology in Action
3.10 Granularity of Battery Passport Data

4. Equipment and Infrastructure
4.1 Overview of Essential Equipment and Infrastructure
4.2 Types and Functions of Necessary Equipment
4.3 Installation and Deployment of Equipment
4.4 Maintenance and Upgrades
4.5 Operational Framework and Considerations
4.6 Cost Considerations and Scalability
4.7 Case Studies: Successful Infrastructure Implementation
4.8 Looking to the Future: Evolving Infrastructure Needs

5. Business Models and Economic Implications
5.1 Overview of Economic Impact
5.2 Economic Impact Analysis
5.3 Business Models for Implementation
5.4 Market Dynamics and Stakeholder Analysis
5.5 Economic Risks for Stakeholders
5.6 Policy Influence on Economic Dynamics
5.7 Looking Forward: Economic Trends and Predictions

6. Policy and Regulatory Framework
6.1 Overview of the Policy Landscape
6.2 Global Standards and Regulations
6.3 Government Incentives and Compliance Issues
6.4 Role of Policy in Shaping Industry Practices
6.5 Stakeholder Engagement and Lobbying
6.6 Legal Challenges and Ethical Considerations
6.7 Recycling and Reuse Strategies
6.8 Future Policy Trends and Directions
6.9 Case Studies: Policy in Action

7. Case Studies and Practical Implementations
7.1 Introduction to Real-World Applications
7.2 Case Study: National Implementation in a Developed Country
7.3 Case Study: Adoption in the Electric Vehicle Industry
7.4 Case Study: Application in Renewable Energy Storage
7.5 Case Study: Developing Country Perspective
7.6 Case Study: Recycling and End-of-Life Management
7.7 Comparative Analysis and Synthesis
7.8 Future Considerations and Recommendations

8. ESG Impact and Sustainability
8.1 Overview of Environmental Considerations
8.2 Lifecycle Analysis of Batteries with Passport System
8.3 Reduction in Electronic Waste
8.4 Energy Efficiency and Carbon Footprint
8.5 Contribution to Sustainable Development Goals (SDGs)
8.6 Challenges and Limitations in Environmental Impact
8.7 Future Trends in Sustainability and Environmental Impact
8.8 Policy Recommendations for Environmental Sustainability

9. Integration with Emerging Technologies
9.1 Overview of the Technological Landscape
9.2 Blockchain Technology
9.3 Internet of Things (IoT) and Connectivity
9.4 Artificial Intelligence and Machine Learning
9.5 Advanced Sensors and Smart Technologies
9.6 Challenges in Technology Integration
9.7 Future Trends in Technology and Integration
9.8 Policy Implications of Technological Advancements

10. Future of the Battery Passport
10.1 Evolving Landscape of Battery Technology
10.2 Predictions and Emerging Trends
10.3 Integration with Global Sustainability Initiatives
10.4 Advancements in Data Management and Security
10.5 Policy and Regulatory Future Landscape
10.6 Challenges and Opportunities Ahead
10.7 Strategic Recommendations for Stakeholders
10.8 Vision for the Future

11. Conclusions and Policy Recommendations
11.1 Summarizing Key Insights
11.2 Economic and Environmental Implications
11.3 Policy and Regulatory Landscape
11.4 Challenges and Future Considerations
11.5 Strategic Recommendations for Stakeholders
11.6 The Path Forward for Battery Passport Systems
11.7 Closing Thoughts