END-OF-LIFE PHOTOVOLTAIC MODULES: LIFE CYCLE ASSESSMENT AND SENSIBILITY ANALYSIS

Abstract

The use of photovoltaic (PV) systems in energy generation has been grown worldwide. In Brazil, this continuous growth is seen in the increase in the number of consumer units. The expected useful life of PV modules is estimated to be between 25 and 30 years. Therefore, most of these units will be deinstalled in the near future. It is important to evaluate the environmental impacts of the technology in order to safely adopt the use of PV energy. The environmental impact of PV modules is a widely studied topic, often using life cycle analysis (LCA). However, these studies emphasize the production phase and exclude or fail to analyze in detail the uninstallation and disposal phase of PV modules. The use of precious metals and components that contain materials classified as hazardous waste has sparked recent interest in highlighting the impacts and likely benefits related to the end-of-life management of PV modules. In this context, the purpose of work is to analyze the environmental impacts of the phase of uninstallation and disposal of photovoltaic (PV) system for Brazil waste management technologies: Recycling, incineration and landfill. The life cycle assessment (LCA) was applied in three scenarios for disposal of modules: Recycling, incineration and landfill. ReCiPe 2008 method was useful to calculating the environmental impacts, with assistance of SimaPro 8.3 software. The results showed that the recycling scenario had a lower environmental performance compared to the other scenarios. The main cause is the high consumption of electricity in metal recovery stage. Besides, this scenario produces a high amount of waste (residual liquid and sludge). The scenario of recycling will be attractive with technological investment in energy efficiency. The advantage of this scenario is the material recovery (precious metal and materials classified as hazardous waste), as consequence will bring environmental benefits.