Synergistic technologies for a circular economy: upcycling waste plastics and biomass
The urgent need for sustainable waste management has led to the exploration of upcycling waste plastics and biomass as viable solutions. In 2018, global plastic production reached 359 million tonnes, with an estimated 12000 million tonnes projected to be delivered and disposed of in landfills by 205...
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2024
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my.unimas.ir-467142024-11-26T02:38:59Z http://ir.unimas.my/id/eprint/46714/ Synergistic technologies for a circular economy: upcycling waste plastics and biomass Ahmed I., Osman Mahmoud, Nasr Chukwunonso O., Aniagor Mohamed, Farghali Hung, Mee Mee Bridgid Chin, Lai Fui Ziqiang, Sun Serene Lock, Sow Mun Eduardo A., López-Maldonado Yiin, Chung Loong Charles E., Chinyelu Abid Salam, Farooqi Zhonghao, Chen Yap, Pow Seng T Technology (General) TA Engineering (General). Civil engineering (General) TP Chemical technology The urgent need for sustainable waste management has led to the exploration of upcycling waste plastics and biomass as viable solutions. In 2018, global plastic production reached 359 million tonnes, with an estimated 12000 million tonnes projected to be delivered and disposed of in landfills by 2050. Unfortunately, current waste management practices result in only 19.5% of plastics being recycled, while the rest is either landfilled (55%) or incinerated (25.5%). The improper disposal of plastics contributes to issues such as soil and groundwater contamination, air pollution, and wildlife disturbance. On the other hand, biomass has the potential to deliver around 240 exajoules of energy per year by 2060. However, its current utilization remains relatively small, with only approximately 9% of biomass-derived energy being consumed in Europe in 2017. This review explores various upcycling methods for waste plastics and biomass, including mechanical, chemical, biological, and thermal approaches. It also highlights the applications of upcycled plastics and biomass in sectors such as construction, packaging, energy generation, and chemicals. The environmental and economic benefits of upcycling are emphasized, including the reduction of plastic pollution, preservation of natural resources, carbon footprint reduction, and circular economy advancement. Springer Nature 2024-09-15 Article PeerReviewed text en http://ir.unimas.my/id/eprint/46714/1/s11705-024-2507-0.pdf Ahmed I., Osman and Mahmoud, Nasr and Chukwunonso O., Aniagor and Mohamed, Farghali and Hung, Mee Mee and Bridgid Chin, Lai Fui and Ziqiang, Sun and Serene Lock, Sow Mun and Eduardo A., López-Maldonado and Yiin, Chung Loong and Charles E., Chinyelu and Abid Salam, Farooqi and Zhonghao, Chen and Yap, Pow Seng (2024) Synergistic technologies for a circular economy: upcycling waste plastics and biomass. Frontiers of Chemical Science and Engineering, 19 (1). pp. 1-35. ISSN 2095-0187 https://link.springer.com/article/10.1007/s11705-024-2507-0 https://doi.org/10.1007/s11705-024-2507-0 |
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T Technology (General) TA Engineering (General). Civil engineering (General) TP Chemical technology Ahmed I., Osman Mahmoud, Nasr Chukwunonso O., Aniagor Mohamed, Farghali Hung, Mee Mee Bridgid Chin, Lai Fui Ziqiang, Sun Serene Lock, Sow Mun Eduardo A., López-Maldonado Yiin, Chung Loong Charles E., Chinyelu Abid Salam, Farooqi Zhonghao, Chen Yap, Pow Seng Synergistic technologies for a circular economy: upcycling waste plastics and biomass |
| description |
The urgent need for sustainable waste management has led to the exploration of upcycling waste plastics and biomass as viable solutions. In 2018, global plastic production reached 359 million tonnes, with an estimated 12000 million tonnes projected to be delivered and disposed of in landfills by 2050. Unfortunately, current waste management practices result in only 19.5% of plastics being recycled, while the rest is either landfilled (55%) or incinerated (25.5%). The improper disposal of plastics contributes to issues such as soil and groundwater contamination, air pollution, and wildlife disturbance. On the other hand, biomass has the potential to deliver around 240 exajoules of energy per year by 2060. However, its current utilization remains relatively small, with only approximately 9% of biomass-derived energy being consumed in Europe in 2017. This review explores various upcycling methods for waste plastics and biomass, including mechanical, chemical, biological, and thermal approaches. It also highlights the applications of upcycled plastics and biomass in sectors such as construction, packaging, energy generation, and chemicals. The environmental and economic benefits of upcycling are emphasized, including the reduction of plastic pollution, preservation of natural resources, carbon footprint reduction, and circular economy advancement. |
| format |
Article |
| author |
Ahmed I., Osman Mahmoud, Nasr Chukwunonso O., Aniagor Mohamed, Farghali Hung, Mee Mee Bridgid Chin, Lai Fui Ziqiang, Sun Serene Lock, Sow Mun Eduardo A., López-Maldonado Yiin, Chung Loong Charles E., Chinyelu Abid Salam, Farooqi Zhonghao, Chen Yap, Pow Seng |
| author_facet |
Ahmed I., Osman Mahmoud, Nasr Chukwunonso O., Aniagor Mohamed, Farghali Hung, Mee Mee Bridgid Chin, Lai Fui Ziqiang, Sun Serene Lock, Sow Mun Eduardo A., López-Maldonado Yiin, Chung Loong Charles E., Chinyelu Abid Salam, Farooqi Zhonghao, Chen Yap, Pow Seng |
| author_sort |
Ahmed I., Osman |
| title |
Synergistic technologies for a circular economy: upcycling waste plastics and biomass |
| title_short |
Synergistic technologies for a circular economy: upcycling waste plastics and biomass |
| title_full |
Synergistic technologies for a circular economy: upcycling waste plastics and biomass |
| title_fullStr |
Synergistic technologies for a circular economy: upcycling waste plastics and biomass |
| title_full_unstemmed |
Synergistic technologies for a circular economy: upcycling waste plastics and biomass |
| title_sort |
synergistic technologies for a circular economy: upcycling waste plastics and biomass |
| publisher |
Springer Nature |
| publishDate |
2024 |
| url |
http://ir.unimas.my/id/eprint/46714/1/s11705-024-2507-0.pdf http://ir.unimas.my/id/eprint/46714/ https://link.springer.com/article/10.1007/s11705-024-2507-0 https://doi.org/10.1007/s11705-024-2507-0 |
| _version_ |
1817848758392586240 |
| score |
13.223943 |