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Investigation of synergetic, kinetics, thermodynamics, and batch studies of polypropylene-bakelite co-pyrolysis

Pabitra Mohan Mahapatra, Prakash Chandra Mishra, Sachin Kumar, Puspanjali Mishra, Achyut Kumar Panda

2023Results in Engineering12 citationsDOIOpen Access PDF

Abstract

This study explores the co-pyrolysis recycling of the Polypropylene-Bakelite blend to improve the kinetics, thermodynamics, and conversion of thermal degradation of bakelite into useful products. The thermogravimetry analysis of the blend was conducted from ambient to 1000 °C at various heating rates in an N2 atmosphere. Thermogravimetric-Differential thermogravimetry curves revealed four steps of pyrolytic degradation, including two major weight loss steps (220–420 °C and 420–550 °C). The blending of polypropylene with Bakelite caused a shift in the pyrolytic degradation temperature zone and a synergetic effect. The pyrolytic degradation of the blended sample followed the F3 order-based mechanism with an average activation energy of 151 kJ/mol at 220–420 °C and the P3/2 nucleation mechanism with an average activation energy of 306 kJ/mol at 420–550 °C. The blend produced 47.66 % oil, 11.1 % wax, 15.1 % residue, and 26.14 % non-condensable gas during batch pyrolysis at 450 °C. The Gas Chromatography-Mass Spectrometry and Fourier Transform Infrared Spectroscopy analyses revealed that the oil contained 18.86 % saturated hydrocarbons (C8-54), 20.33 % unsaturated hydrocarbons (C7-19), and 60.81 % oxygenated compounds (C9-41) that could be used as transportation fuel.

Topics & Concepts

ThermogravimetryPyrolysisPyrolytic carbonPolypropyleneActivation energyThermogravimetric analysisKineticsChemical engineeringEvolved gas analysisMaterials scienceChemistryThermal analysisAnalytical Chemistry (journal)Organic chemistryThermalThermodynamicsQuantum mechanicsPhysicsEngineeringThermal and Kinetic AnalysisThermochemical Biomass Conversion ProcessesPolymer crystallization and properties
Investigation of synergetic, kinetics, thermodynamics, and batch studies of polypropylene-bakelite co-pyrolysis | Litcius