Performance evaluation and conservation of waste solid plastics into alternative fuel for a pollution‐free environment

The handling of waste plastics is a big challenge and various recycling routes are imposed to prevent the environmental ecosystem. Waste plastics are one of the major pollutants in the living environment and have characteristics such as non‐dehydration and toxicity. The wastages are occupying natura...

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Veröffentlicht in:	Environmental quality management 2023-12, Vol.33 (2), p.103-110
Hauptverfasser:	Venkatesh, Rathinavelu, Manivannan, Subramanian, Karthikeyan, Natarajan, Kubendiran, Murugan, Kannan, Chidambaram Ramesh, Naveen, Subbaiyan
Format:	Artikel
Sprache:	eng
Schlagworte:	alternative fuel Alternative fuels Ambient temperature Automotive engines Automotive fuels Cooling water Dehydration Diesel engines Diesel fuels eco‐friendly environment Emission analysis Emissions Environmental management Environmental quality Exhaust gases Fuel oils Internal combustion engines Oil wastes Performance evaluation Plastic debris Plastics Pyrolysis pyrolysis process recycle waste plastics Recycling Thermodynamic efficiency Toxicity
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container_end_page	110
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container_title	Environmental quality management
container_volume	33
creator	Venkatesh, Rathinavelu Manivannan, Subramanian Karthikeyan, Natarajan Kubendiran, Murugan Kannan, Chidambaram Ramesh Naveen, Subbaiyan
description	The handling of waste plastics is a big challenge and various recycling routes are imposed to prevent the environmental ecosystem. Waste plastics are one of the major pollutants in the living environment and have characteristics such as non‐dehydration and toxicity. The wastages are occupying natural lands and water source areas, decreasing the soil behavior, reducing the minerals, and affecting the environmental ecosystem. In this situation, waste plastics are effectively handled with a suitable recycling process that helps to minimize toxicity. According to the present research, waste plastics are handled by separate arrangements and treated with the pyrolysis technique to obtain useful alternative fuel oil for automotive fuel applications. The synthesized pyrolysis (waste plastic oil fuel) oil fuel is tested by single stage four‐stroke diesel engines and its performance is compared with standard diesel fuel. The test results show that the brake thermal efficiency is improved by 28.85%. A higher 37% yield was obtained during this decomposition process above the 550°C temperature of 1 kg of waste plastics, formed as gas and condensed via cooling water, maintaining an ambient temperature. Moreover, the DI gas emission analyzer is used to evaluate the exhaust gas emission result found less than 1% of the CO and HC formation.
doi_str_mv	10.1002/tqem.21991
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A higher 37% yield was obtained during this decomposition process above the 550°C temperature of 1 kg of waste plastics, formed as gas and condensed via cooling water, maintaining an ambient temperature. 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Waste plastics are one of the major pollutants in the living environment and have characteristics such as non‐dehydration and toxicity. The wastages are occupying natural lands and water source areas, decreasing the soil behavior, reducing the minerals, and affecting the environmental ecosystem. In this situation, waste plastics are effectively handled with a suitable recycling process that helps to minimize toxicity. According to the present research, waste plastics are handled by separate arrangements and treated with the pyrolysis technique to obtain useful alternative fuel oil for automotive fuel applications. The synthesized pyrolysis (waste plastic oil fuel) oil fuel is tested by single stage four‐stroke diesel engines and its performance is compared with standard diesel fuel. The test results show that the brake thermal efficiency is improved by 28.85%. 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source	Business Source Complete; Access via Wiley Online Library
subjects	alternative fuel Alternative fuels Ambient temperature Automotive engines Automotive fuels Cooling water Dehydration Diesel engines Diesel fuels eco‐friendly environment Emission analysis Emissions Environmental management Environmental quality Exhaust gases Fuel oils Internal combustion engines Oil wastes Performance evaluation Plastic debris Plastics Pyrolysis pyrolysis process recycle waste plastics Recycling Thermodynamic efficiency Toxicity
title	Performance evaluation and conservation of waste solid plastics into alternative fuel for a pollution‐free environment
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