Effect of outdoor ageing on pyrolytic characteristics and kinetics of different organic components in waste photovoltaic panels

Pyrolysis is a potential approach for volume reduction and utilization of organic components in waste photovoltaic panels. During a usage period of 20–25 years, the physical and chemical properties of photovoltaic panels might undergo ageing and deterioration, thereby affecting their thermal decompo...

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Bibliographic Details
Published in:Journal of analytical and applied pyrolysis 2024-06, Vol.180, p.106565, Article 106565
Main Authors: Li, Fan, Tao, Junyu, Zhang, Jia, Sun, Yunan, Liu, Yuan, Cheng, Zhanjun, Yan, Beibei, Chen, Guanyi
Format: Article
Language:English
Subjects:
Kinetics
Pyrolysis treatment
Thermogravimetry-Fourier transform infrared spectroscopy-mass spectrometry analysis
Waste photovoltaic panels
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Summary:Pyrolysis is a potential approach for volume reduction and utilization of organic components in waste photovoltaic panels. During a usage period of 20–25 years, the physical and chemical properties of photovoltaic panels might undergo ageing and deterioration, thereby affecting their thermal decomposition characteristics. The characteristics of samples before and after ageing were studied using Fourier transform infrared spectroscopy, scanning electron microscopy, elemental analyzer, and thermogravimetry-Fourier transform infrared spectroscopy-mass spectrometry. There were certain differences in the weight loss temperature, time, residual mass, and activation energy of the samples in the pyrolysis reaction. After ageing, the production of acetic acid and methane in ethylene vinyl acetate pyrolysis products increased, while the production of CO2 decreased. After ageing, Tedlar-Polyethylene Terephalate-Tedlar mainly produced water, carbon dioxide, and fluorocarbon compounds, and the percentage of harmful fluorocarbon compounds in the human body increased. Cyclosiloxane, CO2, and hydrocarbons containing C-H bond were detected in each weight-loss stage of aged silica gel. As the heating rate changed, the amount of pyrolysis products also changed. Controlling the sample's heating rate would help to lessen the quantity of hazardous pollutants that were produced. The influence of ageing on the weight loss of mixed samples was discussed. This study seeks to give a fundamental understanding of the physicochemical properties, pyrolysis behaviour, and volatiles of samples before and after ageing, thus providing helpful insights for the final disposal or recovery of waste photovoltaic panels through pyrolysis. [Display omitted] ●Effect of aging on pyrolysis of polymer substances in waste PV panels was studied.●Aging process changed pyrolysis products distribution of EVA, TPT, and silica gel.●Average activation energy was decreased in EVA and TPT but increased in silica gel.●Effect of aging on TG features of EVA, TPT, and silica gel blends was discussed.●This work is hoped to provide insights for pyrolysis disposal of waste PV panels.
ISSN:0165-2370
DOI:10.1016/j.jaap.2024.106565