Manifestación

Autores

• Autor: Salas Redondo, Caterin Yojana; Blanco, Carlos Felipe; Alvino, Katherine; Peijnenburg, Willie; Oberbeck, Lars

Identificador

1162883

Fecha de publicación

2020

Forma obra

Texto

Lugar de producción

37th European Photovoltaic Solar Energy Conference and Exhibition proceedings, 2020

Nota de edición

Digitalización realizada por la Biblioteca Virtual del Banco de la República (Colombia)

Materias

• Ciencias naturales y matemáticas; Ciencias naturales y matemáticas / Física
• Photovoltaics; Solar energy; Carbon footprint; Environmental effect; Tandem; Life cycle assessment; LCA; Silicon; PERC; Perovskite; Solar cells

Notas

• Colombia
• Colfuturo
• © Derechos reservados del autor
• Abstract: For the first time a comprehensive life cycle assessment (LCA) is reported of a large-area perovskite/Si tandem photovoltaic (PV) module of about 2 m², with an assumed power conversion efficiency of 30%, 30 years lifetime and an annual degradation of 0.5%, manufactured in a 1 GW production plant. By means of the LCA method, we calculate the contribution to the International Reference Life Cycle Data System (ILCD) impact categories associated with a perovskite/Si tandem PV system compared with a passivated emitter and rear cell (PERC) used as reference. We consider a functional unit of 1 kWh of generated direct current electrical energy from the tandem module over its lifetime. It was found that the most significant environmental hotspots are the silicon wafer production and the balance of system (BOS), especially the mounting system, inverter and electric installation. Overall, the impact contributions to the environment caused by the perovskite sub-module are below 1% throughout all the ILCD categories in focus: climate change, freshwater ecotoxicity, water resource depletion and human toxicity. Even the contribution of lead to human toxicity is just about 0.01%. For all the impacts assessed, the perovskite/Si tandem shows a decrease of between 17-20% of the contributions to each impact category compared to the PERC-module based reference PV system, if the Si bottom sub-module has an initial cell efficiency of at least 22% with 1% cell-to-module (CTM) loss, and the perovskite top sub-module has a minimum initial cell efficiency of 18% with at most 5% CTM loss and a transmittance near IR region larger than 80%. The key result found in this work is the relevance of the performance and reliability of the PV system to achieve lower environmental impacts. A comparison between optimistic, realistic, and pessimistic scenarios was performed to investigate this matter: in the worst-case scenario, the environmental impact of the PV tandem system would have a general 50% increase throughout all ILCD impact categories against the realistic case, whereas in the optimistic one, the results suggest a reduction of 46% to the global impact contributions, compared to the realistic scenario.

Enlace permanente

https://www.cervantesvirtual.com/obra/life-cycle-assessment-of-perovskite-on-silicon-tandem-pv-modules-at-industrial-scale-1162883

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