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Provides a roadmap for the further development and implementation of battery passport systems, emphasizing their role in achieving a sustainable and efficient battery lifecycle management.
List of contents
1. INTRODUCTION TO THE BATTERY PASSPORT
1.1 Why the Battery Passport Matters
1.2 What It Is and How It Works
1.3 Comprehensive Overview of the EU Battery Regulation (Regulation 2023/1542)
1.4 How ? Setting the Global Standard
1.5 Non exhaustive list of standards
2. TECHNOLOGICAL INFRASTRUCTURE OF THE BATTERY PASSPORT
2.1 Core Technological Components
2.2 Data Lifecycle Management
2.3 Cybersecurity and Privacy
2.4 Interfaces and accessibility
2.5 Operational Best Practices
2.5 Future Challenges and Innovations
3. BUSINESS MODELS AND ECONOMIC IMPLICATIONS
3.1 Overview of Economic Impact
3.2 Business Models for Implementation
3.3 Financial Incentives and Support Mechanisms
3.4 Global Trade
3.5 Economic Risks for Stakeholders
3.6 Strategic Recommendations for Economic Adaptation
4. POLICY AND REGULATORY FRAMEWORK: ENABLING AND CONSTRAINING THE BATTERY PASSPORT
4.1 Global fragmentation
4.2 Solutions for the fragmentation and battery passport uptake
4.3 Further challenges
4.4 Future Policy Trends and Directions
5 ADDRESSING GREENHOUSE GAS EMISSIONS AND CLOSED-LOOP RECYCLING IN THE BATTERY INDUSTRY: THE ROLE OF BATTERY PASSPORTS
5.1 The Environmental Challenges of Battery Production and Disposal
5.2 Mitigating GHG Emissions Through Supply Chain Transparency
5.3 The Role of Battery Passports in Achieving Closed-loop Recycling
5.4 Conclusion
6. GLOBAL BATTERY PASSPORTS CASE STUDY: A COMPREHENSIVE ANALYSIS OF INITIATIVES
6.1 GBA Battery Passport Initiative
6.2 Battery Pass Initiative
6.3 Catena-X Initiative
6.4 Ouranos Ecosystem & Battery Passport
6.5 Battery ID
6.6 Automaker and Technology Provider Initiatives
6.7 Conclusions
About the author
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.
Summary
Provides a roadmap for the further development and implementation of battery passport systems, emphasizing their role in achieving a sustainable and efficient battery lifecycle management.
