Tetrapak waste treatment using microwave pyrolysis to produce alternative gas fuels
Tetrapak waste is one of the most abundant wastes in the world. It consists of layers of paper, LDPE, and aluminium foil. It is difficult to recycle, however it can be converted into valuable gaseous fuel if processed by microwave heat using a dual reactor catalytic process, SiC as microwave absorbe...
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Chaoyang University of Technology
2022
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id-ugm-repo.2821652023-11-29T07:03:57Z https://repository.ugm.ac.id/282165/ Tetrapak waste treatment using microwave pyrolysis to produce alternative gas fuels Pratiwi, Ilham Ayu Putri Saptoadi, Harwin Sentanuhady, Jayan Purnomo, Chandra Wahyu Rohmat, Tri Agung Mechanical Engineering not elsewhere classified Tetrapak waste is one of the most abundant wastes in the world. It consists of layers of paper, LDPE, and aluminium foil. It is difficult to recycle, however it can be converted into valuable gaseous fuel if processed by microwave heat using a dual reactor catalytic process, SiC as microwave absorber, and natural zeolite as catalyst. The sample was pyrolyzed at different Microwave Output Power (MOP) levels (300, 450, 600, and 800 W) and Catalytic Temperatures (CT) levels (350, 400, 450, and 500°C) for 30 minutes. The results showed that the MOP and CT levels positively affect the increase of the yield and improve the heating value of the gas product. For instance, at 800 W, the gas yield increased from 73 wt. in the process without catalyst to 78 wt. in the catalytic temperature of 500°C. The same effect occurred when various MOP levels were used. The gas yield increased when the MOP level raised. H2, CH4, CO, CO2, and other hydrocarbons with low molecular weights (C2+) are the major components of gas products. The presence of catalyst, an increase in CT, and a rise in MOP all boosted the generation of syngas (H2+ CO) up to 54.55 wt.. The gas yields from this experiment have a LHV of 21.97–23.46 MJ/m3 and total energy of 34.59–171.24 kJ. The high-quality gaseous products can be used as alternative fuels or feed gas for chemical synthesis © Copyright: The Author(s). This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0), which permits unrestricted distribution provided the original author and source are cited Chaoyang University of Technology 2022 Article PeerReviewed application/pdf en https://repository.ugm.ac.id/282165/1/Pratiwi%20et%20al.%20-%202022%20-%20Tetrapak%20waste%20treatment%20using%20microwave%20pyrolysis.pdf Pratiwi, Ilham Ayu Putri and Saptoadi, Harwin and Sentanuhady, Jayan and Purnomo, Chandra Wahyu and Rohmat, Tri Agung (2022) Tetrapak waste treatment using microwave pyrolysis to produce alternative gas fuels. International Journal of Applied Science and Engineering, 19 (4). pp. 1-11. ISSN 1727-2394 https://gigvvy.com/journals/ijase/articles/ijase-202212-19-4-008 |
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Mechanical Engineering not elsewhere classified Pratiwi, Ilham Ayu Putri Saptoadi, Harwin Sentanuhady, Jayan Purnomo, Chandra Wahyu Rohmat, Tri Agung Tetrapak waste treatment using microwave pyrolysis to produce alternative gas fuels |
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Tetrapak waste is one of the most abundant wastes in the world. It consists of layers of paper, LDPE, and aluminium foil. It is difficult to recycle, however it can be converted into valuable gaseous fuel if processed by microwave heat using a dual reactor catalytic process, SiC as microwave absorber, and natural zeolite as catalyst. The sample was pyrolyzed at different Microwave Output Power (MOP) levels (300, 450, 600, and 800 W) and Catalytic Temperatures (CT) levels (350, 400, 450, and 500°C) for 30 minutes. The results showed that the MOP and CT levels positively affect the increase of the yield and improve the heating value of the gas product. For instance, at 800 W, the gas yield increased from 73 wt. in the process without catalyst to 78 wt. in the catalytic temperature of 500°C. The same effect occurred when various MOP levels were used. The gas yield increased when the MOP level raised. H2, CH4, CO, CO2, and other hydrocarbons with low molecular weights (C2+) are the major components of gas products. The presence of catalyst, an increase in CT, and a rise in MOP all boosted the generation of syngas (H2+ CO) up to 54.55 wt.. The gas yields from this experiment have a LHV of 21.97–23.46 MJ/m3 and total energy of 34.59–171.24 kJ. The high-quality gaseous products can be used as alternative fuels or feed gas for chemical synthesis © Copyright: The Author(s). This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0), which permits unrestricted distribution provided the original author and source are cited |
| format |
Article PeerReviewed |
| author |
Pratiwi, Ilham Ayu Putri Saptoadi, Harwin Sentanuhady, Jayan Purnomo, Chandra Wahyu Rohmat, Tri Agung |
| author_facet |
Pratiwi, Ilham Ayu Putri Saptoadi, Harwin Sentanuhady, Jayan Purnomo, Chandra Wahyu Rohmat, Tri Agung |
| author_sort |
Pratiwi, Ilham Ayu Putri |
| title |
Tetrapak waste treatment using microwave pyrolysis to produce alternative gas fuels |
| title_short |
Tetrapak waste treatment using microwave pyrolysis to produce alternative gas fuels |
| title_full |
Tetrapak waste treatment using microwave pyrolysis to produce alternative gas fuels |
| title_fullStr |
Tetrapak waste treatment using microwave pyrolysis to produce alternative gas fuels |
| title_full_unstemmed |
Tetrapak waste treatment using microwave pyrolysis to produce alternative gas fuels |
| title_sort |
tetrapak waste treatment using microwave pyrolysis to produce alternative gas fuels |
| publisher |
Chaoyang University of Technology |
| publishDate |
2022 |
| url |
https://repository.ugm.ac.id/282165/1/Pratiwi%20et%20al.%20-%202022%20-%20Tetrapak%20waste%20treatment%20using%20microwave%20pyrolysis.pdf https://repository.ugm.ac.id/282165/ https://gigvvy.com/journals/ijase/articles/ijase-202212-19-4-008 |
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