| Title | Implementing a sustainable process for the recovery of palladium from spent catalysts at industrial scale: A LCA approach |
|---|---|
| ID_Doc | 21303 |
| Authors | Ceraso, A; Policastro, G; Muscetta, M; Clarizia, L; Cesaro, A |
| Title | Implementing a sustainable process for the recovery of palladium from spent catalysts at industrial scale: A LCA approach |
| Year | 2024 |
| Published | |
| Abstract | Due to its unique physicochemical properties, palladium is widely used in several industry applications (e.g., vehicle emission control). In view of the circular economy, it is essential to explore secondary sources of palladium, such as urban mines. Current technologies for effective palladium recovery involve high energy consumption and severe environmental impact. More recently, a novel green method for recovering palladium from spent catalysts through a combination of mild acidic leaching and photodeposition on ZnO nanoparticles was proposed on a laboratory scale. In the present study, the environmental impacts of this recovery method, properly upscaled and modelled, was assessed by employing the LCA approach. Specifically, a comparative LCA was carried out for the process with as well as without recycling key components, such as Cu (II) and NaCl for the leaching solution and ZnO. The outcomes identified critical areas and drove the investigation of alternative process configurations to reduce its environmental footprint, such as the use of carbon dioxide in the photodeposition process with the aim of decreasing the resulting terrestrial ecotoxicity. This study marks a significant step forward in advancing research toward industrial -scale implementation of palladium recovery. It provides valuable insights for researchers in the field of green physicochemical processes for metal recovery, thus offering guidance for future decision -making towards more sustainable practices. |
| https://doi.org/10.1016/j.jenvman.2024.120910 |
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