Reintegration of photovoltaic panel waste back into manufacturing as high value products

HORIZON.2.5HORIZON-IAID: 101122332
EC Contribution
€69,438
Consortium Size
21 orgs
Summary

In RETRIEVE we aim to combine PV upstream value chain organizations with beyond state-of-the-art recycling processes and techniques to improve circularity within the PV sector. RETRIEVE targets the upcycling of the components of the End of Life (EoL) solar panels, enhancing the material quality to meet current requirements for re-introduction into the PV value chain. RETRIEVE will increase the circularity and minimize the environmental impact of the PV industry by developing and demonstrating cost effective recycling technologies for the different components of a solar module; recycle glass to current PV specifications, purify production waste and EoL silicon to solar grade quality, recover silver and heavy metals, and polymer valorization with carbon capture. The final goal is to demonstrate a closed-loop recycling process where recycled glass as well as silicon is re-used in state-of-the-art solar module production, turning the EoL PV panels into sources of new raw materials for the PV manufacture industry. In addition, future PV waste streams for EoL and production waste will be forecasted, and the market potential will be evaluated. By lowering the financial burden of material recovery and increasing the value after recovery, RETRIEVE makes the overall module recycling process more profitable, and the project opens new paths for commercialization. Business cases and market introduction strategies will be developed for a selection of the processes and products.

Consortium (21)

Project Results (12)

Source: CORDIS, the EU research results database.

Publications (6)
Assessment of constraints in the European Union photovoltaics circular supply chain for enhanced circularity
Journal of Cleaner Production· 2025DOI
Tadas Radavičius, Stefan N. Groesser, Manuela Tvaronavičienė
Environmentally sustainable methodology for the extraction of ethyene vinyl acetate (EVA) residue from EoL PV panel dismantled by hot knife
Renewable Energy· 2025DOI
Refika Budakoğlu, Deniz Avcı Akın, Olcay İrem İrey, Ersin Gökçen, Güray Kasapoğlu, Duygu Yılmaz
Thermal Determination of the Ethylene Vinyl Acetate Copolymer (EVA) and Polyethylene Terephthalate (PET) Ratio in Photovoltaic Module Waste
· 2025
Robert Heidrich, Michael Wendt, Susanne Richter, Sylke Meyer
Assessment of EU PV Circular Supply Chain Circularity Constraints
· 2024
Tadas Radavičius (A) (B) tadas.radavicius@solitek.eu Stefan N. Groesser (C) stefan.groesser@bfh.ch
Efficient Recovery of Silver and Aluminum from End-of-Life Photovoltaics: A Two-Step Leaching Approach
Processes· 2024DOI
James Malumbo Mwase, Stefanie Wahl, Sylke Meyer, Duygu Yilmaz
Recycling siliziumbasierter PV-Module
· 2024
Wahl, Stefanie; Henatsch, Peter
Deliverables (5)
Other Results (1)
Periodic Reporting for period 1 - RETRIEVE (Reintegration of photovoltaic panel waste back into manufacturing as high value products)