Upon completion, participants will be able to:

• Conduct comprehensive lifecycle assessments of energy systems
• Apply circular economy principles to energy technology design
• Evaluate material criticality and resource efficiency
• Develop circular business models for energy companies
• Calculate carbon footprints and environmental impacts
• Design for disassembly, reuse, and recycling
• Navigate LCA standards and certification systems
• Integrate circularity into product development processes
• Assess the sustainability of energy storage technologies
• Develop end-of-life management strategies for energy assets

• Sustainability Managers
• Product Development Engineers
• Environmental Consultants
• Circular Economy Specialists
• Energy Technology Developers
• Research and Development Staff
• Policy Analysts
• Supply Chain Managers

• LCA software training and exercises
• Circular design workshops
• Material flow analysis case studies
• Business model development sessions
• Technology comparison exercises
• Stakeholder engagement simulations
• Mini-case studies of circular innovations
• Syndicate discussions on implementation barriers

Circular Economy Fundamentals

• Linear vs circular economic models
• Reduce, reuse, recycle, recover hierarchy
• Circular design strategies and frameworks
• Business model innovation for circularity

• Material flows in energy systems
• Critical raw materials and supply risks
• Energy-water-materials nexus
• Policy and regulatory drivers

Lifecycle Assessment Methodology

• ISO 14040/14044 standards
• Goal and scope definition
• System boundary setting
• Functional unit and reference flows

• Data collection and quality assessment
• Allocation methods and procedures
• Database and software tools
• Uncertainty and sensitivity analysis

Impact Assessment and Interpretation

• Midpoint and endpoint impact categories
• Global warming potential calculation
• Resource depletion and water use impacts
• Ecotoxicity and human health impacts

• Hotspot identification and analysis
• Comparative assertion and communication
• Critical review processes
• Limitations and uncertainty communication

Energy Technology Applications

• Solar PV lifecycle assessment
• Wind turbine material flows and recycling
• Bioenergy sustainability considerations
• Geothermal and hydropower impacts

• Battery lifecycle assessment
• Critical material requirements
• Recycling and second-life applications
• Alternative storage technologies

Circular Design Strategies

• Modular design and standardization
• Design for disassembly and repair
• Material selection and substitution
• Remanufacturing and refurbishment

• Product-as-a-service models
• Digital product passports
• Industrial symbiosis applications
• Biomimicry and nature-inspired design

Implementation and Business Integration

• Value chain collaboration
• Reverse logistics and collection systems
• Economic assessment of circular strategies
• Risk management in circular transitions

• Change management for circular transitions
• Performance measurement and KPIs
• Stakeholder engagement strategies
• Policy and regulatory alignment