Weathering of plastic SODIS containers and the impact of ageing on their lifetime and disinfection efficacy
Weathering of plastic SODIS containers and the impact of ageing on their lifetime and disinfection efficacy
This work aims to study the ageing of plastic materials suitable for manufacturing solar water disinfection (SODIS) containers, such as PET, polymethylmethacrylate (PMMA), and polypropylene (PP) with and without UV-stabiliser. The evolution of mechanical and optical properties, and disinfection rates were studied over different weathering periods. PMMA and PP with a 1% content by weight of UV-stabiliser were shown to be excellent candidate materials for manufacturing SODIS devices, since they presented stable optical and mechanical properties, and both transmit UVB radiation. Since PMMA is a UV resistant but fragile, easily scratched material with a lifetime above one year, it should be selected for static SODIS devices, while PP with 1% of UV-stabiliser should be chosen for portable devices because of its great resistance and elasticity for up to nine months of solar exposure. Both materials were considered profitable on the basis of their lifetime/costs ratio. PET showed great mechanical properties for one year but, in contrast, suffered of a deterioration of its optical properties and disinfection rates. PP without UV-stabilisers suffered a dramatic degradation after a very short exposure of 2 months. Finally, a kinetic model that considers the radiation spectral distribution (thus, the transmittance spectra of the plastics as a function of the ageing time) is proposed to estimate the required solar exposure time to achieve water disinfection for the proposed plastic SODIS containers. A good agreement between predicted and experimental data was achieved, especially for containers manufactured with PET and both PPs (errors below 25%).
E. coli, Kinetic modelling, Photostability, Solar water disinfection, Spectral action, Weatherometer
García-Gil, Ángela
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Molina-Ramírez, María Dolores
e81edf46-a297-42cd-8cc0-dff93882c1a0
García-Muñoz, Rafael A.
6876eaa4-65b4-41d1-8b96-78f1a9d8450c
Marasini, Ramesh
9af8dd30-6984-400d-aa5f-4749ca68729b
Buck, Lyndon
49b03b09-a98b-4edb-9b14-f5a8f6363971
McGuigan, Kevin G.
9338997c-a40c-4886-8e0c-42ad3014a205
Marugán, Javier
41a81799-5257-4496-96ce-4a60e26765ae
2 February 2022
García-Gil, Ángela
8ff7a47d-cf22-4e50-8f91-f24fbbbcca89
Molina-Ramírez, María Dolores
e81edf46-a297-42cd-8cc0-dff93882c1a0
García-Muñoz, Rafael A.
6876eaa4-65b4-41d1-8b96-78f1a9d8450c
Marasini, Ramesh
9af8dd30-6984-400d-aa5f-4749ca68729b
Buck, Lyndon
49b03b09-a98b-4edb-9b14-f5a8f6363971
McGuigan, Kevin G.
9338997c-a40c-4886-8e0c-42ad3014a205
Marugán, Javier
41a81799-5257-4496-96ce-4a60e26765ae
García-Gil, Ángela, Molina-Ramírez, María Dolores, García-Muñoz, Rafael A., Marasini, Ramesh, Buck, Lyndon, McGuigan, Kevin G. and Marugán, Javier
(2022)
Weathering of plastic SODIS containers and the impact of ageing on their lifetime and disinfection efficacy.
Chemical Engineering Journal, 435 (Part 1), [134881].
(doi:10.1016/j.cej.2022.134881).
Abstract
This work aims to study the ageing of plastic materials suitable for manufacturing solar water disinfection (SODIS) containers, such as PET, polymethylmethacrylate (PMMA), and polypropylene (PP) with and without UV-stabiliser. The evolution of mechanical and optical properties, and disinfection rates were studied over different weathering periods. PMMA and PP with a 1% content by weight of UV-stabiliser were shown to be excellent candidate materials for manufacturing SODIS devices, since they presented stable optical and mechanical properties, and both transmit UVB radiation. Since PMMA is a UV resistant but fragile, easily scratched material with a lifetime above one year, it should be selected for static SODIS devices, while PP with 1% of UV-stabiliser should be chosen for portable devices because of its great resistance and elasticity for up to nine months of solar exposure. Both materials were considered profitable on the basis of their lifetime/costs ratio. PET showed great mechanical properties for one year but, in contrast, suffered of a deterioration of its optical properties and disinfection rates. PP without UV-stabilisers suffered a dramatic degradation after a very short exposure of 2 months. Finally, a kinetic model that considers the radiation spectral distribution (thus, the transmittance spectra of the plastics as a function of the ageing time) is proposed to estimate the required solar exposure time to achieve water disinfection for the proposed plastic SODIS containers. A good agreement between predicted and experimental data was achieved, especially for containers manufactured with PET and both PPs (errors below 25%).
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More information
Accepted/In Press date: 21 January 2022
e-pub ahead of print date: 26 January 2022
Published date: 2 February 2022
Keywords:
E. coli, Kinetic modelling, Photostability, Solar water disinfection, Spectral action, Weatherometer
Identifiers
Local EPrints ID: 489996
URI: http://eprints.soton.ac.uk/id/eprint/489996
ISSN: 1385-8947
PURE UUID: b79a0c85-d4cf-406f-bd77-3fa9ca975eab
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Date deposited: 13 May 2024 16:30
Last modified: 14 May 2024 02:08
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Contributors
Author:
Ángela García-Gil
Author:
María Dolores Molina-Ramírez
Author:
Rafael A. García-Muñoz
Author:
Ramesh Marasini
Author:
Lyndon Buck
Author:
Kevin G. McGuigan
Author:
Javier Marugán
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