Co-pyrolysis of polyolefin mixtures and oil palm fibre for the production of liquid fuel: kinetics and thermodynamic study
Author | Gin, A. W. |
Author | Hassan, H. |
Author | Ahmad, M. A. |
Author | Hameed, B. H. |
Author | Din, A. T.Mohd |
Available date | 2023-03-30T08:44:00Z |
Publication Date | 2022-05-23 |
Publication Name | Biomass Conversion and Biorefinery |
Identifier | http://dx.doi.org/10.1007/s13399-022-02822-5 |
Citation | Gin, A. W., Hassan, H., Ahmad, M. A., Hameed, B. H., & Din, A. M. (2022). Co-pyrolysis of polyolefin mixtures and oil palm fibre for the production of liquid fuel: kinetics and thermodynamic study. Biomass Conversion and Biorefinery, 1-15. |
ISSN | 2190-6815 |
Abstract | Studies on the co-pyrolysis of plastic waste and biomass to obtain sustainable liquid fuel, while reducing the amount of unwanted plastics and agricultural solid residues, have gained global attention recently. The purpose of this work was to investigate the thermal, kinetics, and thermodynamic events that occurred during the pyrolysis of binary polyolefin (PO) mixture, oil palm fibre (OPF), and their blends (ternary mixtures) at 5, 10, 15, and 20 °C/min using a thermogravimetric analyser (TGA). The pyrolysis and co-pyrolysis reactions at different heating rates were categorised into different reaction zones. The single reaction zone for the PO mixture started from 221 to 510 °C, while the first, second, and third reaction zones for OPF started from 30 to 132 °C, 223–315 °C, and 299–557 °C, respectively. The first, second, and third reaction zones for the co-pyrolysis of PO mixture with OPF started from 210 to 319 °C, 298–382 °C, and 375–525 °C, respectively. The enthalpy changes were in the range of 355–146 kJ/mol, 149–164 kJ/mol, and 164–261 kJ/mol for PO mixtures, OPF, and their blend, respectively, under a heating rate that ranged between 5 and 20 °C/min. The thermal analysis of these materials indicated that the activation energies needed to achieve the thermal degradation of PO mixture were higher than for the thermal degradation of the OPF. The heating rate of 10 °C/min was found to be suitable for the co-pyrolysis of the samples based on the low activation energy. The results further showed that the co-pyrolysis of polyolefin mixtures with biomass could significantly reduce the energy inputs of the process by drastically reducing the activation energy of the reaction. |
Sponsor | Lotte Chemical Titan (M) Sdn Bhd, Pasir Gudang, Johor, Malaysia, and Universiti Sains Malaysia (Grant Number: 304/PJKIMIA/6050422/L128). |
Language | en |
Publisher | Springer |
Subject | Co-pyrolysis Enthalpy Oil palm fibre Polyolefin mixture Thermogravimetric analysis |
Type | Article |
Pagination | 1-15. |
ESSN | 2190-6823 |
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