A new concept of edge shrinkage, case deduced from the treatment of Pet-Al residues of post-consumed food cartons with an alkaline solution

This study aims to develop a mathematical model that can explain the regeneration process mechanism of the aluminum which is in the packaging of food bricks (the Pet-Al residue Rsd(Pet-Al) is a laminated foil residue made from polyethylene and aluminum foil) as a raw material in alkaline solution an...

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Bibliographic Details
Published in:Cleaner Engineering and Technology 2021-10, Vol.4, p.100244, Article 100244
Main Authors: Souilhi, Aymen, Abidi, Rym
Format: Article
Language:English
Subjects:
Alkaline solution
Aluminium hydroxyde
Aymen edge model
Edge shrinkage
Flat shape
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Summary:This study aims to develop a mathematical model that can explain the regeneration process mechanism of the aluminum which is in the packaging of food bricks (the Pet-Al residue Rsd(Pet-Al) is a laminated foil residue made from polyethylene and aluminum foil) as a raw material in alkaline solution and evaluate that model based on the experimental data. In fact, the literature shows that a symmetrical diffusion of the reagent occurs through the two sides of large bare surfaces, this is true when both surfaces of the solid are naked. In our case, the Pet-Al residue suggests another mode of attack seeing that both of aluminium surfaces are covered with polyethylene. For that, a new Edge Shrinking model called “Aymen Edge Model” was invented. The process mechanism that occurs involves the reactant diffusion step and the chemical reactions step; those steps run simultaneously. The concentration of free hydroxyls OH− in the solution compared to the reference solution, [OH-]solution - [OH-]reference = f(t), gives an idea of the different stages observed during of the consumed hydroxyls evolution. The SEM micrographs resulting, after a basic treatment, with concentration from 1M to 10M at a temperature ranging from 20 to 80 °C, proves that the attack is done by the edges and also confirm the obtaining salts.
ISSN:2666-7908
2666-7908
DOI:10.1016/j.clet.2021.100244