Circular Integration of independent Reverse supply Chains for the smart reUse of IndusTrially relevant Semiconductors

Digital, Industry & SpaceHORIZON-RIAID: 101091490
EC Contribution
โ‚ฌ59,950
Consortium Size
22 orgs
Start Year
2023
โ–ถSummary

Several products embed different types of electronic components, and they are even more fundamental in some of the European strategic markets (e.g. automotive). However, reference producers come from extra-EU countries in the far-east side of the world (e.g. China and Taiwan). Trying to cope with all these challenges and the current semiconductors crisis, the European Commission (EC) published (and in some cases is still working on) specific EU strategies/directives for automotive, e-waste (e.g. Digital Product Passport) and, specifically, semiconductors (e.g. European Chips Act). However, trying to make these sectors more sustainable, circular and resilient, it is mandatory to boost both EoL strategies (e.g. sorting, reuse, remanufacturing and recycling) and intra-EU production through innovations and investments. The current international scenario represents a good chance to decouple the European economy from both natural resource depletion (e.g. Critical Raw Materials - CRMs) and dependency from extra-EU supplies of strategic products. In order to better prove what the benefits are of a joined circular/resilient use of secondary resources, the automotive and mass electronics sectors have been identified as the reference contexts for establishing a set of innovative solutions. To this aim, the CIRC-UITS project will focus on demonstrate the improvement to the circularity of automotive and mass electronics sectors by reuse of semiconductors from different sources, as well as support the reuse & remanufacturing of semiconductors into new (high added-value) components and products in these sectors.

Consortium (22)

Project Results (26)

Source: CORDIS, the EU research results database.

โ–ถPublications (15)
Repairing of in-mold electronics and life cycle assessment
Resources, Conservation and Recyclingยท 2026DOI
Stephan Harkema, Diana E. Godoi Bizarro, Maarten H. Bakker, Jan P.H. van Delft, Pim R. Ostendorf, Peter A. Rensing, Lia de Simon, A. van Schaik
A Systematic Literature Review of Existing Methods and Tools for the Criticality Assessment of Raw Materials: A Focus on the Relations between the Concepts of Criticality and Environmental Sustainabil
Resourcesยท 2025DOI
Daniele Perossa, Paolo Rosa, Sergio Terzi
Circular Innovation: How to Build Reverse Electronics Supply Chains โ€“ the Case of CIRC-UITS Project
IFIP Advances in Information and Communication Technology, Product Lifecycle Management. PLM in the Age of Model-Based Engineering in Industryยท 2025DOI
Daniele Perossa, Laura Pomo, Paolo Rosa
Digital Twins for Waste Management in Manufacturing: Preliminary Investigation on Possible Uses
IFIP Advances in Information and Communication Technology, Product Lifecycle Management. Integrating Digital Technologies for Sustainability and Innovationยท 2025DOI
Laila El Warraqi, Daniele Perossa, Paolo Rosa
โ€œScale without massโ€: A decision-making tool for scaling remanufacturing practices in the white goods industry
Journal of Cleaner ProductionDOI
Franzรจ, C, Pesce, P., Kalverkamp, M., Pehlken, A.
A Serious Game-based Learning Approach for Enterprise Organisation
Proceeding of CIRP Conference on Learning Factories 2024DOI
Grimmel, Siemon, Posselt, Mennenga
APPLICATION OF MATRIX COMPLETION TECHNIQUES ON LCA DATA FOR DIFFERENT RECYCLING SCENARIOS FOR PARTS OF PROFESSIONAL DATA CENTERS
LISA DAWEL, FELIX SCHMEDES, FERNANDO ANDRES PENAHERRERA VACA, ALEXANDRA PEHLKEN
Chapter 5
Handbook of recycling: State of the art for Practitioners, Analysts, and ScientistsDOI
Reuter, M.A., Schaik, A. van
Circular Approaches for the Ecodesign, Repair and Remanufacturing of Car and Mass Electronics
Paolo Rosa, Sergio Terzi
COLLABORATIVE FRAMEWORK FOR LIFE CYCLE SUSTAINABILITY & CIRCULARITY ASSESSMENT AND ADVISORY: AN AUTOMOTIVE ELECTRONICS USE CASE
ALESSANDRO FONTANA, SIRO DELLโ€™AMBROGIO, VERONICA DOSI, SIMONE FASOLA, LUCA CANETTA, GIUSEPPE LANDOLFI, CHRISTIAN TRISOLINI, ANTOINETTE VAN SCHAIK, MARKUS REUTER
Defining and Achieving Next-Generation Green Electronics: A Perspective on Best Practices Through the Lens of Hybrid Printed Electronics
KEALIE VOGEL 1, SARA CARNIELLO 2, VALERIO BENI3, AKSHAT SUDHESHWAR 1 , NADIA MALINVERNO1, YOLANDA ALESANCO 4, MAX TORRELLAS 5, STEPHAN HARKEMA 6 , MARGREET DE KOK 6, CORNร‰ RENTROP6, IGNACIO ZURANO VILLASUSO7, LOU BERNARD 7 , ENRIQUE MOLINER 7, CHRISTIAN R
Digital Twins: Enhancing Circular Economy through Digital Tools
Procedia CIRPDOI
Pehlken, A., Davila, M.F., Dawel, L., Meyer, O
ECODESIGN TOOL FOR INCREASED SUSTAINABILITY AND REQUIREMENTS FULFILMENT, INCLUDING REPAIRABILITY AND CRITICAL RAW MATERIALS ANALYSIS
ALEXANDRA PEHLKEN, OLE MEYER, LISA DAWEL
Resources, Conservation and Recyclcing
RESOURCES, CONSERVATION AND RECYCLINGDOI
STEPHAN HARKEMA, DIANA E. GODOI BIZARRO, MAARTEN H. BAKKER, JAN P.H. VAN DELFT, PIM R. OSTENDORF, PETER A. RENSING, LIA DE SIMON. A. VAN SCHAIK
SUSTAINABLE PREPROCESSING FOR AI REPAIRABILITY ASSESSMENT
ALEKSANDR BYSTROV, OLE MEYER, FABIAN KOTT, KARIN SAEMANN, ACHIM MAAT, LISA DAWEL
โ–ถDeliverables (11)