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Development and Techno-Economic Analysis of an Advanced Recycling Process for Photovoltaic Panels Enabling Polymer Separation and Recovery of Ag and Si

Antonio Rubino, Giuseppe Granata, Emanuela Moscardini, Ludovica Baldassari, Pietro Altimari, Luigi Toro, Francesca Pagnanelli

2020Energies33 citationsDOIOpen Access PDF

Abstract

Photovoltaic panels were included in EU Directive as WEEE (Wastes of Electric and Electronic Equipment) requiring the implementation of dedicated collection schemes and end-of-life treatment ensuring targets in terms of recycling rate (80%) and recovery rate (85%). Photovoltaic panels are mainly made up of high-quality solar glass (70–90%), but also metals are present in the frames (Al), the cell (Si), and metallic contacts (Cu and Ag). According to the panel composition, about $72 per 100 kg of panels can be recovered by entirely recycling the panel metal content. The PhotoLife process for the treatment of end-of-life photovoltaic panels was demonstrated at pilot scale to recycle high value glass, Al and Cu scraps. A process upgrade is here reported allowing for polymer separation and Ag and Si recycling. By this advanced PhotoLife process, 82% recycling rate, 94% recovery rate, and 75% recoverable value were attained. Simulations demonstrated the economic feasibility of the process at processing capacity of 30,000 metric ton/y of end-of-life photovoltaic panels.

Topics & Concepts

Photovoltaic systemUpgradeWaste managementRecovery rateMaterials scienceProcess engineeringTonneProcess (computing)Environmental scienceEngineeringComputer scienceElectrical engineeringChemistryOperating systemChromatographyPhotovoltaic Systems and SustainabilityRecycling and Waste Management TechniquesExtraction and Separation Processes
Development and Techno-Economic Analysis of an Advanced Recycling Process for Photovoltaic Panels Enabling Polymer Separation and Recovery of Ag and Si | Litcius