ENIntegrated two-step co-pyrolysis under several low-cost natural catalysts to produce aromatic-rich liquid fuel from mixed municipal solid waste
Integrated two-step co-pyrolysis under several low-cost natural catalysts to produce aromatic-rich liquid fuel from mixed municipal solid waste
- 清洁能源(英文) 2025年第2期
- 作者机构:
1. Energy Conversion and Conservation Laboratory, Department of Chemical Engineering, Universitas Pendidikan Indonesia
2. Center of Energy Research and Application (CERAP), Faculty of Engineering and Vocational, Universitas Pendidikan Indonesia
3. Department of Mechanical Engineering Education, Universitas Pendidikan Indonesia
4. Department of Mechanical Engineering Education, Universitas Sebelas Maret
5. Department of Mechanical Engineering, Universitas Lampung
- 作者简介:
- 基金信息:This study was supported by Universitas Pendidikan Indonesia and the Ministry of Education, Culture, Research, and Technology.
DOI:10.1093/ce/zkae092
中图分类号:-
纸质出版:2025
- 稿件说明:
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Indra Mamad Gandidi, Yusep Sukrawan, Iwa Kuntadi, 等. Integrated two-step co-pyrolysis under several low-cost natural catalysts to produce aromatic-rich liquid fuel from mixed municipal solid waste[J]. 清洁能源(英文), 2025,(2).
Indra Mamad Gandidi, Yusep Sukrawan, Iwa Kuntadi, Nugroho Agung Pambudi, Arinal Hamni, Integrated two-step co-pyrolysis under several low-cost natural catalysts to produce aromatic-rich liquid fuel from mixed municipal solid waste, Clean Energy, Volume 9, Issue 2, April 2025, Pages 1–11, https://doi.org/10.1093/ce/zkae092
Indra Mamad Gandidi, Yusep Sukrawan, Iwa Kuntadi, 等. Integrated two-step co-pyrolysis under several low-cost natural catalysts to produce aromatic-rich liquid fuel from mixed municipal solid waste[J]. 清洁能源(英文), 2025,(2). DOI: 10.1093/ce/zkae092.
Indra Mamad Gandidi, Yusep Sukrawan, Iwa Kuntadi, Nugroho Agung Pambudi, Arinal Hamni, Integrated two-step co-pyrolysis under several low-cost natural catalysts to produce aromatic-rich liquid fuel from mixed municipal solid waste, Clean Energy, Volume 9, Issue 2, April 2025, Pages 1–11, https://doi.org/10.1093/ce/zkae092 DOI:
摘要
The world’s increasing human population and industrial activities have resulted in an enormous rise in energy consumption throughout the years. Substantial attention has been given to the impending energy crisis caused by the depletion of fossil fuel supplies and their contribution to environmental degradation. As a result
it is necessary to investigate and make use of nonfossil energy sources for the purpose of maintaining demand stability as well as creating a sustainable green environment. Pyrolysis is a reliable method to convert municipal solid waste materials into useful energy. Hence
the co-pyrolysis of unsegregated municipal solid waste was investigated in this study using an integrated two-step pyrolysis process with a double reactor
supported by various natural catalysts
such as zeolite
dolomite
and kaolin
at 550°C for 210 minutes as constant variables—an approach that has not been reported previously. To determine the physical and chemical properties
liquid fuel was subjected to ASTM and gas chromatography–mass spectroscopy analyses
and the impact of each catalyst on its characteristics was also examined. The aromatic fraction was prominent in the liquid fuel yields produced using kaolin and zeolite catalysts (57.4% and 46.1% peak area
respectively). Meanwhile
the highest yield of liquid fuel was obtained using dolomite as the catalyst. The viscosity and density of liquid fuel with dolomite
kaolin
and zeolite were 10.83
4.25
and 4.04 mm2/second and 0.88
0.89
and 1.01 g/cm3
respectively. Conversely
the corresponding calorific values for zeolite
kaolin
and dolomite were 41.37
41.09
and 41.19 MJ/kg
respectively. The physical characteristics of the liquid fuel are comparable to those of common fuels such as petrol-88
which is utilized in Indonesia as a vehicle fuel.
Abstract
The world’s increasing human population and industrial activities have resulted in an enormous rise in energy consumption throughout the years. Substantial attention has been given to the impending energy crisis caused by the depletion of fossil fuel supplies and their contribution to environmental degradation. As a result
it is necessary to investigate and make use of nonfossil energy sources for the purpose of maintaining demand stability as well as creating a sustainable green environment. Pyrolysis is a reliable method to convert municipal solid waste materials into useful energy. Hence
the co-pyrolysis of unsegregated municipal solid waste was investigated in this study using an integrated two-step pyrolysis process with a double reactor
supported by various natural catalysts
such as zeolite
dolomite
and kaolin
at 550°C for 210 minutes as constant variables—an approach that has not been reported previously. To determine the physical and chemical properties
liquid fuel was subjected to ASTM and gas chromatography–mass spectroscopy analyses
and the impact of each catalyst on its characteristics was also examined. The aromatic fraction was prominent in the liquid fuel yields produced using kaolin and zeolite catalysts (57.4% and 46.1% peak area
respectively). Meanwhile
the highest yield of liquid fuel was obtained using dolomite as the catalyst. The viscosity and density of liquid fuel with dolomite
kaolin
and zeolite were 10.83
4.25
and 4.04 mm2/second and 0.88
0.89
and 1.01 g/cm3
respectively. Conversely
the corresponding calorific values for zeolite
kaolin
and dolomite were 41.37
41.09
and 41.19 MJ/kg
respectively. The physical characteristics of the liquid fuel are comparable to those of common fuels such as petrol-88
which is utilized in Indonesia as a vehicle fuel.
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