About Our LCA Tool
Advancing sustainable metallurgy through comprehensive Metal lifecycle assessment
Importance of Circularity in Metal
Metal is one of the most recyclable materials on Earth, with the potential for infinite recycling without quality loss. However, achieving true circularity requires comprehensive understanding of the entire lifecycle - from bauxite mining to end-of-life recovery.
The Metal industry faces significant environmental challenges, including high energy consumption during primary production and the generation of red mud waste. Our LCA tool helps identify optimization opportunities across the entire value chain.
By implementing circular economy principles, the Metal sector can reduce its carbon footprint by up to 75% while maintaining product quality and performance standards.
Key Benefits
- Reduce environmental impact by up to 95% through optimized recycling
- Lower energy consumption compared to primary aluminum production
- Minimize waste generation and landfill dependency
- Enhance resource security and supply chain resilience
Proposed and developed by Team SkyMax from NIT Raipur, ensuring cutting-edge research and innovative approaches to sustainable Metal lifecycle assessment and circular economy principles.
Built with rigorous academic research from NIT Raipur's engineering expertise, ensuring scientific accuracy and industry relevance in all assessment methodologies and sustainability frameworks.
Meet Team SkyMax
Abdullah Shaikh
Team-Leader
Shani Sao
Design Lead
Sahil Tiwari
Developer
Ayush Mishra
Researcher
Adya Singh
Analyst
Anshikha Pandey
Engineer
Contact Team SkyMax for collaboration, research partnerships, or technical inquiries.
Case Studies & Applications
Automotive Industry
Optimizing aluminum usage in vehicle manufacturing for weight reduction and improved fuel efficiency.
Building & Construction
Sustainable aluminum applications in green building projects and infrastructure development.
Packaging Solutions
Circular packaging design for food and beverage industries with enhanced recyclability.