Zhiyuan Zhao scite author profile

Thermal decomposition of solid combustibles infiltrated with combustible liquids (liquid accelerants) is one typical fire behavior in arsons. In the present study, thermogravimetric and kinetic analyses are used to investigate the pyrolysis of one typical noncharring polymer namely polymethyl methacrylate (PMMA) infiltrated with different contents of one representative liquid accelerant namely kerosene. Results indicate that the thermal decomposition process of pure PMMA and PMMA infiltrated with kerosene show a one-stage and a three-stage process, respectively. Furthermore, the first and third stages for PMMA infiltrated with kerosene can be both regarded as one-step reaction.With the increase of kerosene content, the conversion rate ranges of the first and third stages for PMMA infiltrated with kerosene are shortened. The peak

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Pyrolytic Kinetics, Reaction Mechanisms and Gas Evolution of Wood Material with Typical Oil by Tg-Ftir

Zhao

Chen

et al. 2023

Preprint

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Kinetic and thermodynamic study of micron waste polypropylene thermal degradation

Liu

Zhao

Chen

et al. 2023

Journal of Polymer Science

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How to properly dispose of waste polymers is a recognized challenge all over the world. Thermal degradation is currently recognized as a promising method for recycling polymer waste into fuels or products with high energy density without polluting the environment. In the present study, the thermal degradation characteristics, kinetics, thermodynamic parameters, and volatiles of a representative and extremely widely-used polymer (micron waste polypropylene [PP]) pyrolysis in nitrogen were investigated. The results indicate that the thermal degradation of micron waste polypropylene can be considered as a one-step reaction with merely one distinct peak on the reaction rate curves.The peak and average reaction rates decrease with the heating rate. The most appropriate reaction model to characterize the thermal degradation is g(α) = 1À(1Àα) 1/4 . The average values of activation energy and pre-exponential factor are 128.76 kJ/mol and 6.79 Â 10 9 min À1 , respectively. The kinetic parameters obtained in this study are all larger than those of PP with the particle size of millimeters or larger. The predicted thermogravimetric curves of thermal degradation are in good agreement with the experimental results.The changes of enthalpy, Gibbs free energy, and entropy show that the thermal degradation of micron waste polypropylene is a non-spontaneous and endothermic reaction. In addition, the concentrations of all volatiles in descending order are: H 2 O > Esters ( COO ) > CO 2 > Alkanes ( CH 3 ) > R 2 C CH 2 > Olefins (C C) > Alcohols (R OH) > Methylene group > CO.

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Thermal degradation of KN90 gauze mask rope waste: Thermogravimetric and thermodynamic analyses, kinetic modeling and volatile products

Zhao

Yang

et al. 2023

Case Studies in Thermal Engineering

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Zhiyuan Zhao

Pyrolytic characteristics, kinetics, thermodynamics, volatile products and chemical reactions of micron polypropylene infiltrated with kerosene

Effects of liquid accelerant on the pyrolysis behaviors and kinetics of PMMA, a noncharring polymer

Pyrolytic Kinetics, Reaction Mechanisms and Gas Evolution of Wood Material with Typical Oil by Tg-Ftir

Kinetic and thermodynamic study of micron waste polypropylene thermal degradation

Thermal degradation of KN90 gauze mask rope waste: Thermogravimetric and thermodynamic analyses, kinetic modeling and volatile products

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