Production of Highly Efficient Activated Carbons for Wastewater Treatment from Post‐Consumer PET Plastic Bottle Waste

Chemical activated carbons (PET‐H2SO4 and PET‐KOH) were prepared from post‐consumer polyethylene terephthalate (PET) wastes using pyrolysis under moderate reaction temperatures by changing pyrolysis time and chemical activating agents. The produced carbons were characterized and tested in adsorption...

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Bibliographic Details
Published in:ChemPlusChem (Weinheim, Germany) Germany), 2024-05, Vol.89 (5), p.e202300484-n/a
Main Authors: Alabi‐Babalola, Olajumoke, Aransiola, Elizabeth, Asuquo, Edidiong, Garforth, Arthur, D'Agostino, Carmine
Format: Article
Language:English
Subjects:
Activated carbon
Adsorption
Chemical plastic recycling
PET waste bottles
Pyrolysis
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Summary:Chemical activated carbons (PET‐H2SO4 and PET‐KOH) were prepared from post‐consumer polyethylene terephthalate (PET) wastes using pyrolysis under moderate reaction temperatures by changing pyrolysis time and chemical activating agents. The produced carbons were characterized and tested in adsorption reactions of manganese, chromium, and cobalt ions in aqueous solutions. Results showed a high percentage removal of these inorganic ions from water: 98 % for Mn2+, 87 % for Cr3+, and 88 % for Co2+. Freundlich isotherms gave a better fit to the experimental data obtained with good correlation coefficient values in the range of 0.99‐1 compared to other isotherms. The pseudo‐second order kinetic model best described the chemical adsorption process as an exchange of electrons between the carbon and inorganic ions in solutions. The diffusion models showed that the process is controlled by a multi‐kinetic stage adsorption process. In summary, this work demonstrates that the production of activated carbon from PET waste bottles is a potential alternative to commercial activated carbon and can be considered a sustainable waste management technology for removing these non‐biodegradable plastic wastes from the environment. Our work involves the conversion of PET waste bottles into activated carbons through pyrolysis, followed by chemical modifications of the carbon surface functionality with oxygen‐containing groups. The produced carbons are then used for removal of inorganic ions from wastewater. The results show that activated carbons from PET waste bottles are a sustainable waste management control strategy for eliminating non‐biodegradable wastes from the environment.
ISSN:2192-6506
2192-6506
DOI:10.1002/cplu.202300484