Patrimony

Circular economy as a key for industrial value chain resilience in a post-COVID world: what do future engineers think?

COVID-19, Circular economy, Engineering students, Industrial systems, Supply chain resilience

Towards a multi-tool approach to close-the-loop on critical raw materials: a case study on platinum from catalytic converters.

Circular economy, Fuzzy cognitive mapping, Material flow analysis, Structural analysis, System dynamics

Multi-tool methodology to evaluate action levers to close the loop on critical materials – Application to precious metals used in catalytic converters.

Case study, Circular economy, Circularity, Fuzzy cognitive mapping, Material flow analysis, Platinum, Structural analysis, System dynamics

Product circularity indicators: what contributions in designing for a circular economy?

Case study, Circular economy, Circularity indicators, Design for X DfX, Design process

How circular economy and industrial ecology concepts are intertwined? A bibliometric and text mining analysis.

Bibliometric analysis, Circular economy, Industrial ecology, Sustainability, Text mining

Dismantling, remanufacturing and recovering heavy vehicles in a circular economy—Technico-economic and organisational lessons learnt from an industrial pilot study.

Circular economy, Dismantling process, Economic recovery, Heavy vehicles, Industrial case study, Remanufacturing

How to Close the Loop of Platinum from Heavy Vehicles Catalytic Converters?

Catalytic Converter, Circular Business Models, Circular Economy, Close the Loop, Critical Raw Material, Modeling & Simulation, Platinum, Precious Group Metal, Prospective Scenarios, Remanufacturing

Circularity Indicators: the Advisor.

Circular economy, Circularity indicators, Design showcase, Selection tool, Taxonomy, Workshop

Framing Product Circularity Performance for Optimized Green Profit.

Circular economy, Design trade-offs, End-of-life management, Green profit, Optimization, Product sustainability

Towards a Circular Economy of Heavy-Duty & Off-Road Vehicles and Associated Key Components.

Circular Economy, Heavy Vehicles, Key Components

Hybrid top-down and bottom-up framework to measure products' circularity performance.

Case Study, Circular Economy, Circularity Indicators, Design for X, Sustainability

Management of the end-of-life of light and heavy vehicles in the U.S.: comparison with the European union in a circular economy perspective.

Best practices, Circular economy, End-of-life management, End-of-life vehicles, Extended producer responsibility, Policy making, Recycling