Development of a continous pneumatic jig for solid waste separation
The work presented in this research is related to the recycling of solid waste material which is currently one of the major issues in the waste management system. The main aim of this study was to develop and establish a continuous solid waste separation technique that utilizes the basic principles...
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| Format: | Thesis |
| Language: | English |
| Published: |
2014
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| Subjects: | |
| Online Access: | http://umpir.ump.edu.my/id/eprint/12071/1/MOHD%20AIZUDIN%20BIN%20ABD%20AZIZ.PDF |
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| Summary: | The work presented in this research is related to the recycling of solid waste material which is currently one of the major issues in the waste management system. The main aim of this study was to develop and establish a continuous solid waste separation technique that utilizes the basic principles of jigging. The initial work has explores the potential application of the constructed batch pneumatic jig on the separation of artificial (density tracers) and real materials (solid wastes). The objective is to discover and understand the underlying principle behind the separation process through experimental works. The results obtained have yielded deeper understanding on the inter-relationship between feed characteristic, airflow conditions, pulse frequency and jig separation efficiency. The knowledge and information gathered from the initial work have been used to construct and develop a new continuous pneumatic jig for the same purpose. Comparison works of the continuous and batch pneumatic jig has indicated that the results obtained from the separation of shredded electrical cable can be repeatable for the sample with approximately 85:15 percentages by weights of copper wire and rubber insulation at the size range of 1.7-2.36 mm. The separation process through continuous pneumatic jig also has showed separation efficiency can be improved when the system incorporated a vibration effect. Furthermore, the jig has also showed it capability on of handling wide range of solid waste material such as compost and WEEE material. Finally, the study has also revealed some of the pneumatic jig (batch and continuous) limitation that may need to be considered in future development of this technique. Overall, the work on the continuous pneumatic jig has confirmed that solid waste particles could be separated through careful control of the air flow, pulse rate and vibration during separation process. This also indicates some promising future for the continuous pneumatic jig in the solid waste recycling application. |
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