Thermal degradation kinetics of real-life reclaimed plastic solid waste (PSW) from an active landfill site: The mining of an unsanitary arid landfill

Thermal degradation kinetics of real-life reclaimed plastic solid waste (PSW) from an active landfill site: The mining of an unsanitary arid landfill

Landfilling is viewed nowadays as a serious threat associated with various burdens and stressors on the urban environment. To date, there is little information available on actual value of landfilled waste namely plastic solid waste (PSW) resulting from mining operations. In this work, PSW reclaimed...

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Main Authors: S.M. Al-Salem, H.J. Karam, M.H. Al-Wadi, S. Alsamaq, G. Jiang, J. Wang, G.A. Leeke
Format: Article
Language:English
Published: Elsevier 2021-03-01
Series:Ain Shams Engineering Journal
Subjects:
Plastic
Degradation
Kinetics
Pyorlysis
Mining
Online Access:http://www.sciencedirect.com/science/article/pii/S2090447920301155
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spelling doaj-463a656405734eabbbd1009c25f578c52021-06-02T14:46:33ZengElsevierAin Shams Engineering Journal2090-44792021-03-01121983993Thermal degradation kinetics of real-life reclaimed plastic solid waste (PSW) from an active landfill site: The mining of an unsanitary arid landfillS.M. Al-Salem0H.J. Karam1M.H. Al-Wadi2S. Alsamaq3G. Jiang4J. Wang5G.A. Leeke6Environment & Life Sciences Research Centre, Kuwait Institute for Scientific Research, P.O. Box: 24885, Safat 13109, Kuwait; Corresponding author.Environment & Life Sciences Research Centre, Kuwait Institute for Scientific Research, P.O. Box: 24885, Safat 13109, KuwaitEnvironment & Life Sciences Research Centre, Kuwait Institute for Scientific Research, P.O. Box: 24885, Safat 13109, KuwaitEuropean Bioenergy Research Institute, Aston University, Aston St., Birmingham B4 7ET, UKSchool of Chemical Engineering, University of Birmingham, Edgbaston, Birmingham B15 2TT, UKEuropean Bioenergy Research Institute, Aston University, Aston St., Birmingham B4 7ET, UKSchool of Chemical Engineering, University of Birmingham, Edgbaston, Birmingham B15 2TT, UKLandfilling is viewed nowadays as a serious threat associated with various burdens and stressors on the urban environment. To date, there is little information available on actual value of landfilled waste namely plastic solid waste (PSW) resulting from mining operations. In this work, PSW reclaimed from an active unsanitary landfill site (MAB) has been studied with the aim of determining its thermal profile and degradation behaviour for future utilisation in thermo-chemical conversion (TCC) processes. The materials were characterised by thermogravimetric analysis (TGA) and differential scanning calorimetry (DSC) in accordance with internationally approved test methods in a simulated pyrolytic environment. In addition, chemical analysis using Fourier Transform Infrared Spectroscopy (FTIR) was applied to study the nature of the materials reclaimed. The degradation kinetics of the reclaimed PSW were studied with the aim of determining the apparent activation energy (Ea) of the pyrolytic reactions. The Ea values determined ranged from 199 to 266 kJ mol−1 which is in-line with pyrolytic reactions applicable for future use in fuel recovery units. TGA showed a clear shift in thermograms indicating a clear change in the degradation mechanism. The physico-chemical studies conducted on the materials also favours TCC treatment over other conventional end of life options such as physical (mechanical) recycling or incineration. The degradation mechanism was also determined from the Criado method showing that Avarami-Erofeve was the model that best represents PSW degradation. Overall, this work points towards future intervention schemes for reclaimed municipal solid waste (MSW) and in particular PSW favouring TCC technologies.http://www.sciencedirect.com/science/article/pii/S2090447920301155PlasticDegradationKineticsPyorlysisMining
collection DOAJ
language English
format Article
sources DOAJ
author S.M. Al-Salem
H.J. Karam
M.H. Al-Wadi
S. Alsamaq
G. Jiang
J. Wang
G.A. Leeke
spellingShingle S.M. Al-Salem
H.J. Karam
M.H. Al-Wadi
S. Alsamaq
G. Jiang
J. Wang
G.A. Leeke
Thermal degradation kinetics of real-life reclaimed plastic solid waste (PSW) from an active landfill site: The mining of an unsanitary arid landfill
Ain Shams Engineering Journal
Plastic
Degradation
Kinetics
Pyorlysis
Mining
author_facet S.M. Al-Salem
H.J. Karam
M.H. Al-Wadi
S. Alsamaq
G. Jiang
J. Wang
G.A. Leeke
author_sort S.M. Al-Salem
title Thermal degradation kinetics of real-life reclaimed plastic solid waste (PSW) from an active landfill site: The mining of an unsanitary arid landfill
title_short Thermal degradation kinetics of real-life reclaimed plastic solid waste (PSW) from an active landfill site: The mining of an unsanitary arid landfill
title_full Thermal degradation kinetics of real-life reclaimed plastic solid waste (PSW) from an active landfill site: The mining of an unsanitary arid landfill
title_fullStr Thermal degradation kinetics of real-life reclaimed plastic solid waste (PSW) from an active landfill site: The mining of an unsanitary arid landfill
title_full_unstemmed Thermal degradation kinetics of real-life reclaimed plastic solid waste (PSW) from an active landfill site: The mining of an unsanitary arid landfill
title_sort thermal degradation kinetics of real-life reclaimed plastic solid waste (psw) from an active landfill site: the mining of an unsanitary arid landfill
publisher Elsevier
series Ain Shams Engineering Journal
issn 2090-4479
publishDate 2021-03-01
description Landfilling is viewed nowadays as a serious threat associated with various burdens and stressors on the urban environment. To date, there is little information available on actual value of landfilled waste namely plastic solid waste (PSW) resulting from mining operations. In this work, PSW reclaimed from an active unsanitary landfill site (MAB) has been studied with the aim of determining its thermal profile and degradation behaviour for future utilisation in thermo-chemical conversion (TCC) processes. The materials were characterised by thermogravimetric analysis (TGA) and differential scanning calorimetry (DSC) in accordance with internationally approved test methods in a simulated pyrolytic environment. In addition, chemical analysis using Fourier Transform Infrared Spectroscopy (FTIR) was applied to study the nature of the materials reclaimed. The degradation kinetics of the reclaimed PSW were studied with the aim of determining the apparent activation energy (Ea) of the pyrolytic reactions. The Ea values determined ranged from 199 to 266 kJ mol−1 which is in-line with pyrolytic reactions applicable for future use in fuel recovery units. TGA showed a clear shift in thermograms indicating a clear change in the degradation mechanism. The physico-chemical studies conducted on the materials also favours TCC treatment over other conventional end of life options such as physical (mechanical) recycling or incineration. The degradation mechanism was also determined from the Criado method showing that Avarami-Erofeve was the model that best represents PSW degradation. Overall, this work points towards future intervention schemes for reclaimed municipal solid waste (MSW) and in particular PSW favouring TCC technologies.
topic Plastic
Degradation
Kinetics
Pyorlysis
Mining
url http://www.sciencedirect.com/science/article/pii/S2090447920301155
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