Abstract:
Although numerous dialogues on the recycling processes of PV panels have been in the
limelight, their progress has been slow due to the lack of institutional support and the lack of
robust legislation within countries. Given the slow progress in PV recycling, this thesis
attempts to analyse the evaluation of the environmental impacts of solar PV systems with
conceptual life cycle assessment and recycling of end-of-life PV panels. This thesis will be
based on the reflective analysis of information mainly gathered through a comparison study of
secondary journal articles and an inventory of carbon and energy.
This analysis focuses on the carbon emissions associated with various phases of a solar PV
system, including manufacturing, transportation, installation, and operation. By using
embodied carbon coefficients, the study quantifies the CO2 intensity (kgCO2/kWh) for each
phase and reveals valuable insights into their environmental impact. The findings highlight the
significance of optimising the installation process and exploring greener transportation
alternatives to reduce the system's carbon footprint.
The study also emphasises the importance of implementing effective end-of-life management
strategies, promoting material recovery, and reducing demand for new materials to achieve
overall embodied carbon emission reductions. To address the growing concern of solar PV
panel waste, the establishment of a comprehensive framework for PV end-of-life management
in Sri Lanka is essential. Creating accountability through collective responsibility, government
support, and producer involvement is crucial to promoting recycling and ensuring sustainable
practices. Financial support from the government is vital to encourage recycling initiatives, and
establishing provincial collection points can further facilitate the recycling process.