Design, Fabrication and Operational Evaluation of a Co-Pyrolysis System for Waste-Plastics Derived Fuels: A Study of Edo North
- 1 Edo State University, Nigeria
- 2 University of Notre Dame, United States
Abstract
This research work designed, developed and assessed the performance of a co-pyrolysis system generating waste-plastic extract fuels from mixed Municipal Waste Plastics (MWP) while evaluating High-Density Polyethylene (HDPE), Polypropylene (PP) and Polystyrene (PS) as the main municipal waste plastic sources. The materials selected for the reactor were carefully studied to meet the pyrolysis system's strength, operability and safety requirements. The equipment was put through its paces in three trials, using 2kg of mixed municipal waste plastics each. The temperature was optimally constant at 450°C for three hours. The equipment had a functional conversion efficiency (wt %) of 73.17%, a waste reduction efficiency (wt %) of 86.3% and oil recovery of 0.90L oil/kg MWP, according to the test results. As a result of its re-cracking process, which recycles heavy molecular weight compounds back into the reactor, this reactor was built in such a manner that only compounds in the carbon range of C1 20 may be created. This process was discovered to have a major impact on the product's distribution. Plastic fuels generated from co-mingled municipal waste plastics had similar characteristics with diesel and based on the characterization and comparative research done in this study.
DOI: https://doi.org/10.3844/ajeassp.2022.32.42
Copyright: © 2022 Kevin Otoikhian, Ubani Oluwaseun Amune, Kennedy Edogamhe, Barnabas Agbodekhe, Kenneth Adama and Emmanuel Aluyor. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
- 3,075 Views
- 2,746 Downloads
- 2 Citations
Download
Keywords
- Waste Plastic
- Pyrolysis
- Fabrication
- Operability Study
- Efficient Production
- Characterization