Technoeconomic feasibility of photovoltaic recycling

Author:

Crespo Beatrice1,Cavanaugh Cailean1,Potter Arron1,Yaniger Stuart1,Gaustad Gabrielle1,Wilkinson Collin1ORCID

Affiliation:

1. Inamori School of Engineering New York College of Ceramics at Alfred University Alfred New York USA

Abstract

AbstractPhotovoltaic (PV) modules are a key technology to aid the imminent transition from carbon‐based energy. End‐of‐life crystalline silicon PV modules produce a waste stream that is predominantly landfilled due to the recycling challenges associated with PV reuse economics. Current practices recycle the aluminum frame and repurpose the junction box but landfill the rest of the module. The primary challenge in recycling the remaining module is finding a technoeconomically viable method for separating the silicon and glass from the ethylene vinyl acetate (EVA) layers. This issue will rapidly expand with time as it is estimated that flat glass production for solar panels is currently unable to meet the demand for PV. Current literature suggests that chemical, thermal, and mechanical delamination offer economically feasible solutions under ideal circumstances. In this work we evaluate these methods using end‐of‐life panels and assess the economic viability. The technoeconomic study presented here suggests the most economically viable option for disposing of end‐of‐life solar panels, given current technology, is landfilling. Thermal delamination may offer an alternative route in the future. Financial incentives, which can be quantified with this work, may be required to kickstart PV recycling to help bridge externalities around environmental impact.

Funder

U.S. Department of Energy

Publisher

Wiley

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