Electronic plastic waste management in Malaysia: The potential of waste to energy conversion
The production of electronic products is one of the world's fasting growing industries today. Due to this phenomena, the amount of electronic waste generated increases proportionately with the production. The growing numbers of uses of plastic products in this sector contribute to electronic pl...
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my.uniten.dspace-308182023-12-29T15:53:55Z Electronic plastic waste management in Malaysia: The potential of waste to energy conversion Othman N. Mohd Sidek L. Ahmad Basri N.E. Muhd Yunus M.N. Othman N.A. 35118084400 35070506500 26648103500 6506706091 35118036000 Calorific value Electronic plastic waste Energy Air pollution control Air quality Calorific value Chemical analysis Effluents Electronics industry Heavy metals Plastic products Recycling Resins Solid wastes Sustainable development Waste incineration Waste management Air emissions Clean air Concentration of Electronic plastic waste Electronic product Electronic waste Environmental quality acts Factor analysis Heat value Heating value Heavy metal contents Malaysia Physical and chemical characteristics Plastic wastes Proximate analysis Resin samples Source of energy Thermal recycling Ultimate analysis Waste to energy conversion Energy conversion The production of electronic products is one of the world's fasting growing industries today. Due to this phenomena, the amount of electronic waste generated increases proportionately with the production. The growing numbers of uses of plastic products in this sector contribute to electronic plastic waste generated. From the management of solid waste aspect, the production of electronic plastic waste has to be handled effectively. Generally, there are three options for electronic plastic waste recycling which is chemical, mechanical or thermal recycling. The main purpose of this paper is to discuss the research conducted on electronic plastic waste which consisted of various types of resin to determine the electronic plastic waste's potential as a source of energy. The physical and chemical characteristics of the electronic plastic waste are determined by the proximate analysis, ultimate analysis and the heavy metal content analysis of the plastic waste resin sample. The dulong formula was applied to calculate the heating value of electronic plastic waste based on the data obtained from the ultimate analysis. The result shows that the average heat value for an electronic waste is 30, 872.42 kj/kg or 7, 375 kcal/kg. The emmission factor analysis shows the concentration of air emission value which would probably be formed due to incineration activitiy is less than the effluent parameter of standard A and standard B limits fixed by the environmental quality act (clean air) 1978 for control air pollution. Basically, this research has succeeded in proving the potential of electronic plastic waste to be used as a source of energy in the future. �2009 IEEE. Final 2023-12-29T07:53:54Z 2023-12-29T07:53:54Z 2009 Conference paper 10.1109/ICEENVIRON.2009.5398623 2-s2.0-77949607614 https://www.scopus.com/inward/record.uri?eid=2-s2.0-77949607614&doi=10.1109%2fICEENVIRON.2009.5398623&partnerID=40&md5=9d37869a349bc9a3e2a7eb7217ac68d6 https://irepository.uniten.edu.my/handle/123456789/30818 5398623 337 342 Scopus |
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Calorific value Electronic plastic waste Energy Air pollution control Air quality Calorific value Chemical analysis Effluents Electronics industry Heavy metals Plastic products Recycling Resins Solid wastes Sustainable development Waste incineration Waste management Air emissions Clean air Concentration of Electronic plastic waste Electronic product Electronic waste Environmental quality acts Factor analysis Heat value Heating value Heavy metal contents Malaysia Physical and chemical characteristics Plastic wastes Proximate analysis Resin samples Source of energy Thermal recycling Ultimate analysis Waste to energy conversion Energy conversion |
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Calorific value Electronic plastic waste Energy Air pollution control Air quality Calorific value Chemical analysis Effluents Electronics industry Heavy metals Plastic products Recycling Resins Solid wastes Sustainable development Waste incineration Waste management Air emissions Clean air Concentration of Electronic plastic waste Electronic product Electronic waste Environmental quality acts Factor analysis Heat value Heating value Heavy metal contents Malaysia Physical and chemical characteristics Plastic wastes Proximate analysis Resin samples Source of energy Thermal recycling Ultimate analysis Waste to energy conversion Energy conversion Othman N. Mohd Sidek L. Ahmad Basri N.E. Muhd Yunus M.N. Othman N.A. Electronic plastic waste management in Malaysia: The potential of waste to energy conversion |
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The production of electronic products is one of the world's fasting growing industries today. Due to this phenomena, the amount of electronic waste generated increases proportionately with the production. The growing numbers of uses of plastic products in this sector contribute to electronic plastic waste generated. From the management of solid waste aspect, the production of electronic plastic waste has to be handled effectively. Generally, there are three options for electronic plastic waste recycling which is chemical, mechanical or thermal recycling. The main purpose of this paper is to discuss the research conducted on electronic plastic waste which consisted of various types of resin to determine the electronic plastic waste's potential as a source of energy. The physical and chemical characteristics of the electronic plastic waste are determined by the proximate analysis, ultimate analysis and the heavy metal content analysis of the plastic waste resin sample. The dulong formula was applied to calculate the heating value of electronic plastic waste based on the data obtained from the ultimate analysis. The result shows that the average heat value for an electronic waste is 30, 872.42 kj/kg or 7, 375 kcal/kg. The emmission factor analysis shows the concentration of air emission value which would probably be formed due to incineration activitiy is less than the effluent parameter of standard A and standard B limits fixed by the environmental quality act (clean air) 1978 for control air pollution. Basically, this research has succeeded in proving the potential of electronic plastic waste to be used as a source of energy in the future. �2009 IEEE. |
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35118084400 |
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35118084400 Othman N. Mohd Sidek L. Ahmad Basri N.E. Muhd Yunus M.N. Othman N.A. |
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Conference paper |
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Othman N. Mohd Sidek L. Ahmad Basri N.E. Muhd Yunus M.N. Othman N.A. |
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Othman N. |
title |
Electronic plastic waste management in Malaysia: The potential of waste to energy conversion |
title_short |
Electronic plastic waste management in Malaysia: The potential of waste to energy conversion |
title_full |
Electronic plastic waste management in Malaysia: The potential of waste to energy conversion |
title_fullStr |
Electronic plastic waste management in Malaysia: The potential of waste to energy conversion |
title_full_unstemmed |
Electronic plastic waste management in Malaysia: The potential of waste to energy conversion |
title_sort |
electronic plastic waste management in malaysia: the potential of waste to energy conversion |
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2023 |
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1806427461484806144 |