In the present study commercial Polylactic Acid-based disposable cups and plates were selected for lab scale anaerobic degradability tests. The experiments were carried out under thermophilic conditions at different inoculum to substrate ratios and test material sizes, and the specific biogas production and associated kinetics were evaluated. Maximum biogas production was comparable for almost all the experimental runs (1620 and 1830 NmL/gTOCPLA) and a biodegradation degree in the range 86-100% was attained. Moreover, physical, chemical and microscopical analyses were used to characterize the tested materials before and after the degradation. The products composition was assessed and the presence of some additives (mainly Ca-based) was detected. Potential correlations among the process parameters and product composition were derived and a delay in process kinetics with increasing amount of additives embedded in the polymeric matrix was observed, confirming the relevant influence of the chemical blend on the biodegradation process.
Anaerobic biodegradation of disposable PLA-based products. Assessing the correlation with physical, chemical and microstructural properties / Bracciale, Maria Paola; De Gioannis, Giorgia; Falzarano, Marica; Muntoni, Aldo; Polettini, Alessandra; Pomi, Raffaella; Rossi, Andreina; Sarasini, Fabrizio; Tirillo', Jacopo; Zonfa, Tatiana. - In: JOURNAL OF HAZARDOUS MATERIALS. - ISSN 1873-3336. - 452:(2023). [10.1016/j.jhazmat.2023.131244]
Anaerobic biodegradation of disposable PLA-based products. Assessing the correlation with physical, chemical and microstructural properties
Bracciale, Maria Paola;Falzarano, Marica
;Polettini, Alessandra;Pomi, Raffaella;Rossi, Andreina;Sarasini, Fabrizio;Tirillo', Jacopo;Zonfa, Tatiana
2023
Abstract
In the present study commercial Polylactic Acid-based disposable cups and plates were selected for lab scale anaerobic degradability tests. The experiments were carried out under thermophilic conditions at different inoculum to substrate ratios and test material sizes, and the specific biogas production and associated kinetics were evaluated. Maximum biogas production was comparable for almost all the experimental runs (1620 and 1830 NmL/gTOCPLA) and a biodegradation degree in the range 86-100% was attained. Moreover, physical, chemical and microscopical analyses were used to characterize the tested materials before and after the degradation. The products composition was assessed and the presence of some additives (mainly Ca-based) was detected. Potential correlations among the process parameters and product composition were derived and a delay in process kinetics with increasing amount of additives embedded in the polymeric matrix was observed, confirming the relevant influence of the chemical blend on the biodegradation process.| File | Dimensione | Formato | |
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