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Course Outline
Introduction to EV Battery Lifecycle
- Understanding battery lifecycle stages from production to disposal
- Factors affecting battery longevity and performance
- Economic and environmental considerations
Battery Recycling Technologies
- Overview of mechanical, hydrometallurgical, and pyrometallurgical methods
- Comparing efficiency and environmental impact
- Innovative recycling techniques and emerging technologies
Battery Reuse and Second-Life Applications
- Repurposing EV batteries for stationary energy storage
- Assessing battery health and potential applications
- Case studies of second-life battery projects
Regulatory Frameworks and Policies
- Understanding international regulations on battery disposal
- National policies promoting sustainable battery practices
- Compliance with hazardous waste management standards
Environmental Impact and Circular Economy Strategies
- Evaluating the carbon footprint of battery recycling
- Strategies for minimizing waste and promoting material recovery
- Implementing closed-loop supply chains in the EV industry
Hands-On Lab: Analyzing Recycling Scenarios
- Simulating battery recycling processes
- Calculating material recovery rates
- Assessing environmental and economic outcomes
Case Studies and Real-World Implementations
- Global initiatives in battery recycling and sustainability
- Best practices from leading automotive manufacturers
- Lessons learned from circular economy projects
Summary and Next Steps
Requirements
- Basic understanding of electric vehicle (EV) technology
- Familiarity with environmental sustainability concepts
- Experience with lifecycle analysis or recycling practices
Audience
- Environmental engineers working on sustainable EV projects
- Policymakers focusing on EV battery regulations
- Sustainability professionals involved in waste management
14 Hours
