Co-pyrolysis of biomass and binary single-use plastics: synergy, kinetics, and thermodynamics

Sabah Mariyam; Prakash Parthasarathy; Snigdhendubala Pradhan; Tareq Al-Ansari; Gordon McKay

doi:10.1080/14786451.2023.2168003

Co-pyrolysis of biomass and binary single-use plastics: synergy, kinetics, and thermodynamics

Sabah Mariyam^*, Prakash Parthasarathy, Snigdhendubala Pradhan, Tareq Al-Ansari, Gordon McKay

^*Corresponding author for this work

CSE Sustainable Development

Hamad bin Khalifa University

Research output: Contribution to journal › Article › peer-review

12 Citations (Scopus)

Abstract

Waste management is an increasing global concern due to the rise in urbanization and industrialization. This study examines the co-pyrolysis of date pits (DP) and single-use plastics (polypropylene-PP and Styrofoam-PS) as a way to create value-added products. Single, binary, and ternary mixtures were pyrolyzed at three different heating rates to understand the synergy, kinetics, and thermodynamics. The results showed positive synergy and reduced activation energies during co-pyrolysis, due to varying reaction mechanisms. The positive values of ∆H, ∆G, and negative ΔS indicate endothermic non-spontaneous reactions and disorder in the products instead of the reactants during pyrolysis. Future studies should explore upscaling this process for sustainable energy production.

Original language	English
Article number	2168003
Journal	International Journal of Sustainable Energy
Volume	43
Issue number	1
DOIs	https://doi.org/10.1080/14786451.2023.2168003
Publication status	Published - 18 Jan 2023

Keywords

Co-pyrolysis
TGA
biomass
kinetics
plastics
thermodynamics

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10.1080/14786451.2023.2168003

Cite this

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title = "Co-pyrolysis of biomass and binary single-use plastics: synergy, kinetics, and thermodynamics",

abstract = "Waste management is an increasing global concern due to the rise in urbanization and industrialization. This study examines the co-pyrolysis of date pits (DP) and single-use plastics (polypropylene-PP and Styrofoam-PS) as a way to create value-added products. Single, binary, and ternary mixtures were pyrolyzed at three different heating rates to understand the synergy, kinetics, and thermodynamics. The results showed positive synergy and reduced activation energies during co-pyrolysis, due to varying reaction mechanisms. The positive values of ∆H, ∆G, and negative ΔS indicate endothermic non-spontaneous reactions and disorder in the products instead of the reactants during pyrolysis. Future studies should explore upscaling this process for sustainable energy production.",

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T2 - synergy, kinetics, and thermodynamics

AU - Mariyam, Sabah

AU - Parthasarathy, Prakash

AU - Pradhan, Snigdhendubala

AU - Al-Ansari, Tareq

AU - McKay, Gordon

PY - 2023/1/18

Y1 - 2023/1/18

N2 - Waste management is an increasing global concern due to the rise in urbanization and industrialization. This study examines the co-pyrolysis of date pits (DP) and single-use plastics (polypropylene-PP and Styrofoam-PS) as a way to create value-added products. Single, binary, and ternary mixtures were pyrolyzed at three different heating rates to understand the synergy, kinetics, and thermodynamics. The results showed positive synergy and reduced activation energies during co-pyrolysis, due to varying reaction mechanisms. The positive values of ∆H, ∆G, and negative ΔS indicate endothermic non-spontaneous reactions and disorder in the products instead of the reactants during pyrolysis. Future studies should explore upscaling this process for sustainable energy production.

AB - Waste management is an increasing global concern due to the rise in urbanization and industrialization. This study examines the co-pyrolysis of date pits (DP) and single-use plastics (polypropylene-PP and Styrofoam-PS) as a way to create value-added products. Single, binary, and ternary mixtures were pyrolyzed at three different heating rates to understand the synergy, kinetics, and thermodynamics. The results showed positive synergy and reduced activation energies during co-pyrolysis, due to varying reaction mechanisms. The positive values of ∆H, ∆G, and negative ΔS indicate endothermic non-spontaneous reactions and disorder in the products instead of the reactants during pyrolysis. Future studies should explore upscaling this process for sustainable energy production.

KW - Co-pyrolysis

KW - TGA

KW - biomass

KW - kinetics

KW - plastics

KW - thermodynamics

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Co-pyrolysis of biomass and binary single-use plastics: synergy, kinetics, and thermodynamics

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Keywords

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EX-QNRF-NPRPS-18: Pyrolysis of Qatar Waste Materials to Produce Agricultural/Landscaping Biochars

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Co-pyrolysis of biomass and binary single-use plastics: synergy, kinetics, and thermodynamics

Abstract

Keywords

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EX-QNRF-NPRPS-18: Pyrolysis of Qatar Waste Materials to Produce Agricultural/Landscaping Biochars

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