Abstract
As the use of photovoltaic installations becomes extensive, it is necessary to look for recycling processes that mitigate the environmental impact of damaged or end-of-life photovoltaic panels. There is no single path for recycling silicon panels, some works focus on recovering the reusable silicon wafers, others recover the silicon and metals contained in the panel. In the last few years, silicon solar cells are thinner, and it becomes more difficult to separate them from the glass, so the trend is towards the recovery of silicon. In this paper, we investigate the experimental conditions to delaminate and recovery silicon in the recycling process, using a combination of mechanical, thermal, and chemical methods. The conditions of thermal treatment to remove the ethylene-vinyl acetate (EVA) layer were optimized to 30 min at 650 °C in the furnace. To separate silicon and metals, the composition of HF/HNO3 solution and the immersion time were adjusted considering environmental aspects and cost. Under the selected conditions, panels from different manufacturers were tested, obtaining similar yields of recovered silicon but differences in the metal concentrations.
Highlights
Received: 26 December 2020The development of solar photovoltaic (PV) energy is linked to the generation of photovoltaic (PV) waste once the PV systems reach the end of their life, so the solar photovoltaic industry to minimize this negative impact must work out in environmentally sustainable practices
The step in the recycling process was the removal of ethylene-vinyl acetate (EVA) layers, which can be performed by two methods, chemical or thermal
The presence of dark matter in the product indicates that EVA and his derived hydrocarbons were not eliminated from the samples, this combination of parameters was classified as not suitable
Summary
The development of solar photovoltaic (PV) energy is linked to the generation of photovoltaic (PV) waste once the PV systems reach the end of their life, so the solar photovoltaic industry to minimize this negative impact must work out in environmentally sustainable practices. The total cumulative installed capacity for PV in the world at the end of 2019 reached 627 GW [1]. Silicon-based solar modules are the dominant technology, with approximately 95% of the global PV module market [2]. Some issues must be addressed to improve this technology, one of them is to mitigate its environmental effects [3,4]. It is well known that recycling PV waste is crucial, to avoid environmental pollution and to refrain from depleting the planet’s mineral resources
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