Investigation of sorption mechanisms of chemical contaminants in PHBV-based food packaging material: Impact on closed-loop mechanical recycling opportunities

Dedieu Isabelle; Aouf Chahinez; Gaucel SebastienPeyron Stephane

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Investigation of sorption mechanisms of chemical contaminants in PHBV-based food packaging material: Impact on closed-loop mechanical recycling opportunities

机译：Investigation of sorption mechanisms of chemical contaminants in PHBV-based food packaging material: Impact on closed-loop mechanical recycling opportunities

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The identification of contaminants on postconsumer food packaging is crucial for developing/adapting decontamination technology of closed-loop mechanical recycling. So far, almost all contamination studies were conducted on PET bottles, with results extrapolated to other polymers. This work investigates the sorption mechanisms of three contaminants (Benzophenone, Ferulic acid and Irganox 1076), with different molecular weights and polarity, on the biodegradable polymer PHBV. Characterization of their respective partition coefficient (K-P/L) and diffusion coefficient (D), under realistic conditions of use (contact with food simulants), allowed the modeling of their concentration profile in the thickness of the material. The results show a sorption in the core of PHBV of these three molecules, reached after a few hours/days. On the contrary, the same model applied to PET reveal a very slow sorption (several years), and only at the surface of the material. This study highlights the impact of polymer structure (chain mobility, polarity horizontal ellipsis ) on contaminant sorption. The behavior of each polymer towards contaminants is directly related to its structure under given conditions of use, and it is a mistake to continue to address the decontamination processes of all polymers, based on the nature and level of contamination of PET.

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《Journal of Applied Polymer Science》 |2023年第28期|共12页
作者
Dedieu Isabelle; Aouf Chahinez; Gaucel SebastienPeyron Stephane;
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作者单位

INRAE;

Univ Montpellier;

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原文格式 PDF
正文语种英语
中图分类高分子化合物工业（高聚物工业）;
关键词
bioplastics; contaminations; food packagings; polyhydroxybutyrate-co-valerate; transfer mechanisms; LIFE-CYCLE ASSESSMENT; POLY(ETHYLENE-TEREPHTHALATE) PET; DIFFUSION;

Investigation of sorption mechanisms of chemical contaminants in PHBV-based food packaging material: Impact on closed-loop mechanical recycling opportunities

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