Research progress in the co-pyrolysis of renewable biomass with plastic wastes for the synergetic production of chemicals and biofuels: A review

Dineshkumar Muniyappan; Banagiri Shrikar; Uthayakumar Azhagu; K. M. Meera Sheriffa Begum; M. Angkayarkan Vinayakaselvi; Anand Ramanathan

doi:10.1063/5.0142355

Research progress in the co-pyrolysis of renewable biomass with plastic wastes for the synergetic production of chemicals and biofuels: A review

Dineshkumar Muniyappan
, Banagiri Shrikar
, Uthayakumar Azhagu
, K. M. Meera Sheriffa Begum
, M. Angkayarkan Vinayakaselvi
, Anand Ramanathan

Research output: Contribution to journal › Review article › peer-review

12 Scopus citations

Abstract

The quantity of plastic waste generated by the public has increased dramatically over the years. Biomass is an abundant and substantial energy resource found in diverse forms all over the planet. In this regard, the co-pyrolysis of plastic and biomass wastes is an attractive option to mitigate the issue of waste accumulation and viable fuel production. This review focuses on progress in waste disposal and energy generation through co-pyrolysis. The properties of common solid feedstock combinations are addressed with an emphasis on proximate analysis, elemental composition, and heating value. Subsequently, state-of-the-art kinetics is reviewed and compared for the efficacies of various kinetic models, which could be applied to understand decomposition mechanisms. The synergy between biomass and plastics was analyzed, and the impact of decomposition mechanisms on the bio-oil, char, and gas yield and composition was discussed. In addition, this study unveiled various reaction pathways for non-catalytic and catalytic co-pyrolysis. Finally, a summary of the economics in co-pyrolysis with knowledge gaps concerning waste management and energy production is addressed. The main goal of this review is to provide a feasible, practical pathway for clean and effective plastic waste disposal by using biomass waste to increase the synergistic effect.

Original language	English
Article number	022701
Journal	Journal of Renewable and Sustainable Energy
Volume	15
Issue number	2
DOIs	https://doi.org/10.1063/5.0142355
State	Published - Mar 2023
Externally published	Yes

Funding

This research work was supported by the Scheme for Promotion of Academic and Research Collaboration, MHRD (Project No. SPARC/2018-2019/P965/SL), and the authors gratefully acknowledge SPARC-MHRD. We would like to express our gratitude to the publishers for allowing us to utilize the graphs and images from previous publications. The authors would like to thank Director of NIT Tiruchirappalli, India, for extending all facilities to carry out this work. This research work was supported by the Scheme for Promotion of Academic and Research Collaboration, MHRD (Project No. SPARC/2018-2019/P965/SL), and the authors gratefully acknowledge SPARC-MHRD. We would like to express our gratitude to the publishers for allowing us to utilize the graphs and images from previous publications. The authors would like to thank Director of NIT Tiruchirappalli, India, for extending all facilities to carry out this work.

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10.1063/5.0142355

Cite this

Muniyappan, D., Shrikar, B., Azhagu, U., Meera Sheriffa Begum, K. M., Angkayarkan Vinayakaselvi, M., & Ramanathan, A. (2023). Research progress in the co-pyrolysis of renewable biomass with plastic wastes for the synergetic production of chemicals and biofuels: A review. Journal of Renewable and Sustainable Energy, 15(2), Article 022701. https://doi.org/10.1063/5.0142355

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title = "Research progress in the co-pyrolysis of renewable biomass with plastic wastes for the synergetic production of chemicals and biofuels: A review",

abstract = "The quantity of plastic waste generated by the public has increased dramatically over the years. Biomass is an abundant and substantial energy resource found in diverse forms all over the planet. In this regard, the co-pyrolysis of plastic and biomass wastes is an attractive option to mitigate the issue of waste accumulation and viable fuel production. This review focuses on progress in waste disposal and energy generation through co-pyrolysis. The properties of common solid feedstock combinations are addressed with an emphasis on proximate analysis, elemental composition, and heating value. Subsequently, state-of-the-art kinetics is reviewed and compared for the efficacies of various kinetic models, which could be applied to understand decomposition mechanisms. The synergy between biomass and plastics was analyzed, and the impact of decomposition mechanisms on the bio-oil, char, and gas yield and composition was discussed. In addition, this study unveiled various reaction pathways for non-catalytic and catalytic co-pyrolysis. Finally, a summary of the economics in co-pyrolysis with knowledge gaps concerning waste management and energy production is addressed. The main goal of this review is to provide a feasible, practical pathway for clean and effective plastic waste disposal by using biomass waste to increase the synergistic effect.",

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Research progress in the co-pyrolysis of renewable biomass with plastic wastes for the synergetic production of chemicals and biofuels: A review. / Muniyappan, Dineshkumar; Shrikar, Banagiri; Azhagu, Uthayakumar et al.
In: Journal of Renewable and Sustainable Energy, Vol. 15, No. 2, 022701, 03.2023.

Research output: Contribution to journal › Review article › peer-review

TY - JOUR

T1 - Research progress in the co-pyrolysis of renewable biomass with plastic wastes for the synergetic production of chemicals and biofuels

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AU - Muniyappan, Dineshkumar

AU - Shrikar, Banagiri

AU - Azhagu, Uthayakumar

AU - Meera Sheriffa Begum, K. M.

AU - Angkayarkan Vinayakaselvi, M.

AU - Ramanathan, Anand

PY - 2023/3

Y1 - 2023/3

N2 - The quantity of plastic waste generated by the public has increased dramatically over the years. Biomass is an abundant and substantial energy resource found in diverse forms all over the planet. In this regard, the co-pyrolysis of plastic and biomass wastes is an attractive option to mitigate the issue of waste accumulation and viable fuel production. This review focuses on progress in waste disposal and energy generation through co-pyrolysis. The properties of common solid feedstock combinations are addressed with an emphasis on proximate analysis, elemental composition, and heating value. Subsequently, state-of-the-art kinetics is reviewed and compared for the efficacies of various kinetic models, which could be applied to understand decomposition mechanisms. The synergy between biomass and plastics was analyzed, and the impact of decomposition mechanisms on the bio-oil, char, and gas yield and composition was discussed. In addition, this study unveiled various reaction pathways for non-catalytic and catalytic co-pyrolysis. Finally, a summary of the economics in co-pyrolysis with knowledge gaps concerning waste management and energy production is addressed. The main goal of this review is to provide a feasible, practical pathway for clean and effective plastic waste disposal by using biomass waste to increase the synergistic effect.

AB - The quantity of plastic waste generated by the public has increased dramatically over the years. Biomass is an abundant and substantial energy resource found in diverse forms all over the planet. In this regard, the co-pyrolysis of plastic and biomass wastes is an attractive option to mitigate the issue of waste accumulation and viable fuel production. This review focuses on progress in waste disposal and energy generation through co-pyrolysis. The properties of common solid feedstock combinations are addressed with an emphasis on proximate analysis, elemental composition, and heating value. Subsequently, state-of-the-art kinetics is reviewed and compared for the efficacies of various kinetic models, which could be applied to understand decomposition mechanisms. The synergy between biomass and plastics was analyzed, and the impact of decomposition mechanisms on the bio-oil, char, and gas yield and composition was discussed. In addition, this study unveiled various reaction pathways for non-catalytic and catalytic co-pyrolysis. Finally, a summary of the economics in co-pyrolysis with knowledge gaps concerning waste management and energy production is addressed. The main goal of this review is to provide a feasible, practical pathway for clean and effective plastic waste disposal by using biomass waste to increase the synergistic effect.

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Research progress in the co-pyrolysis of renewable biomass with plastic wastes for the synergetic production of chemicals and biofuels: A review

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