The influence of the recycling stress history on LDPE waste pyrolysis

Duque, José Luis Ramírez; Martins, Márcio Ferreira; Debenest, Gérald; Orlando, M. T. D.

doi:10.1016/j.polymertesting.2020.106460

Cited by 30 publications

(6 citation statements)

References 55 publications

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“…Thus, the thermal degradation process of LDGPE occurs in a single step. The only stage of weight loss was at approximately 475°C for all samples, in agreement with Hajinezhad et al [27] , Duque et al [28] and Saber et al [29] in similar studies using LDPE. However, each formulation had a different amount of weight loss.…”

Section: Composite Materialssupporting

confidence: 90%

Sustainable composites of eco-friendly polyethylene reinforced with eggshells and bio-calcium carbonate

Vieira,

Reichert,

Cholant

et al. 2023

Polímeros

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This work aimed to obtain and analyze composite materials made from green polyethylene and calcium carbonate extracted from chicken eggshells. The shells were collected and prepared for later extraction of calcium carbonate. With the X-ray diffraction analysis it was possible to confirm that both the in natura reinforcement and the calcined one, have the same polymorph mineral (calcite). With regard to thermal behavior, compounds with in natura reinforcement showed greater mass loss due to the moisture contained in them. The results showed a significant increase in Young's moduli of the composites compared to the pure polymer. The scanning electron microscopy showed good dispersion and adhesion between the reinforcement materials and matrix. In view of the results, eggshells have the potential to be used as fillers, where greater rigidity is required. Since these materials come from a waste material, with low cost, their use becomes even more viable.

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Section: Composite Materialssupporting

confidence: 90%

Sustainable composites of eco-friendly polyethylene reinforced with eggshells and bio-calcium carbonate

Vieira,

Reichert,

Cholant

et al. 2023

Polímeros

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“…Researchers utilized different numerical methods and series expansions to approximate the polynomial term

and thus different models were proposed. Those models are used to obtain the kinetic triplets (A, E, and mechanism) (Aboulkas et al (2010) [ 17 ], Duque et al (2020) [ 19 ], Mumbach et al (2019) [ 20 ], Al-Yaari and Dubdub (2020) [ 21 ]). Table 4 and Table 5 list four of the most used isoconversional models and two of the non-isoconversional models, respectively.…”

Section: Methodsmentioning

confidence: 99%

Pyrolysis Kinetic Study of Polylactic Acid

et al. 2022

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Polylactic acid (PLA) is a biodegradable polymer and is mainly used in the textile and food packaging fields. The aim of this work is to build knowledge on the kinetics of the pyrolysis of PLA with the help of thermogravimetric analysis (TGA) using four model-free methods, namely Friedman, Flynn–Wall–Qzawa (FWO), Kissinger–Akahira–Sunose (KAS), and Starink. Additionally, two model-fitting methods (the Coats–Redfern and Criado methods) were applied. TGA data at 5, 10, 20, and 30 K/min heating rates were collected. The obtained activation energies of the pyrolysis of PLA at different conversions by the model-free models were in good agreement and the average values were 97, 109, 104, and 104 kJ/mol for Friedman, FWO, KAS, and Starink, respectively. The Criado model was used together with the Coats–Redfern model to identify the most appropriate reaction mechanism. As per this work, the best controlling reaction mechanism of the PLA pyrolysis can be expressed by the geometrical contraction model (R2).

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“…Concerning the conversion rate, the virgin and the waste PE had a single peak at 5, 10, 15, and 20 °C/min. In the literature, the pyrolysis rate curves of the virgin PE [ 38 , 40 ] and the waste PE [ 40 ] also obtained the lone peak at different heating rates. However, it does not suggest that the virgin and the waste PE are decomposed in a one-step mechanism.…”

Section: Resultsmentioning

confidence: 99%

Application of a neural fuzzy model combined with simulated annealing algorithm to predict optimal conditions for polyethylene waste non-isothermal pyrolysis

Pan

Duque

Martins

et al. 2020

Heliyon

Self Cite

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In the present study, the waste polyethylene (PE) pyrolysis under different non-isothermal conditions was investigated to estimate the optimal conversions and pyrolysis rates. The pyrolysis study was carried out using Thermogravimetry (TG) of the virgin and the waste PE under different heating rates of 5, 10, 15 and 20 C/min. The TG experiments indicated that the virgin and the waste PE pyrolysis processes mainly underwent in the temperature range of 390-510 C. Subsequently, the adaptive neural fuzzy model was adopted to predict the conversions and the pyrolysis rates of the virgin and the waste PE. The optimal operating conditions in different temperature ranges were optimized by the simulated annealing algorithm (SA). Moreover, the R-squared values of the virgin PE conversions (~1) and pyrolysis rates (> 0.999), and the waste PE conversions (~1) and pyrolysis rates (> 0.999) revealed the high accuracy of the adaptive neural fuzzy model predicted results.

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The influence of the recycling stress history on LDPE waste pyrolysis

Cited by 30 publications

References 55 publications

Sustainable composites of eco-friendly polyethylene reinforced with eggshells and bio-calcium carbonate

Sustainable composites of eco-friendly polyethylene reinforced with eggshells and bio-calcium carbonate

Pyrolysis Kinetic Study of Polylactic Acid

Application of a neural fuzzy model combined with simulated annealing algorithm to predict optimal conditions for polyethylene waste non-isothermal pyrolysis

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