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Pilot-scale flue gas pyrolysis system for organic and plastic wastes with improved liquid properties in a non-thermal plasma reactor

A fast, oxidative pyrolysis system was developed to produce a pyrolysis liquid (PyOL) upgraded with a non-thermal plasma (NTP) reactor. In addition to the 1.8 million tonnes per annum of plastic wastes, large amounts of municipal solid waste in Malaysia end up in landfills, of which 40�60 % is organ...

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Main Authors: Lim M.T., Tan E.S., Chai Y.H., Chin B.L.F., Juwono F.H., Hisham D.H.B., Mohamed Anuar M.A.
Other Authors: 56393739900
Format: Article
Published: Elsevier B.V. 2024
Subjects:
Co-pyrolysis
Fast pyrolysis
Organic waste
Plasma reactor
Plastic waste
Carbon
Elastomers
Flues
Gas emissions
Land fill
Life cycle
Municipal solid waste
Pyrolysis
Volatile organic compounds
Copyrolysis
Large amounts
Liquid properties
Non-thermal plasma reactors
Organic wastes
Pilot scale
Plasma reactors
Plastics waste
Pyrolysis liquids
Flue gases
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spelling my.uniten.dspace-340882024-10-14T11:17:55Z Pilot-scale flue gas pyrolysis system for organic and plastic wastes with improved liquid properties in a non-thermal plasma reactor Lim M.T. Tan E.S. Chai Y.H. Chin B.L.F. Juwono F.H. Hisham D.H.B. Mohamed Anuar M.A. 56393739900 16425096800 56941336000 56052383600 35119041900 57967307200 57216692378 Co-pyrolysis Fast pyrolysis Organic waste Plasma reactor Plastic waste Carbon Elastomers Flues Gas emissions Land fill Life cycle Municipal solid waste Pyrolysis Volatile organic compounds Copyrolysis Fast pyrolysis Large amounts Liquid properties Non-thermal plasma reactors Organic wastes Pilot scale Plasma reactors Plastics waste Pyrolysis liquids Flue gases A fast, oxidative pyrolysis system was developed to produce a pyrolysis liquid (PyOL) upgraded with a non-thermal plasma (NTP) reactor. In addition to the 1.8 million tonnes per annum of plastic wastes, large amounts of municipal solid waste in Malaysia end up in landfills, of which 40�60 % is organic or food waste. Organic and plastic wastes (OPW) can be used as carbon feedstocks for the pyrolysis process to produce PyOL, reducing the OPW disposal in landfills, and carbon emissions. However, the current pyrolysis methods use pure nitrogen, implying increased operational cost, and are commonly performed at the lab scale. In this study, flue gas was used for the pyrolysis of OPW at a pilot scale. The use of flue gas for PyOL production reduces the operational costs and lifecycle carbon emissions. Results show that the addition of a small percentage of plastics at the pyrolysis temperature of 350 �C increased the yield of liquid. However, large amounts of plastics resulted in significant material agglomeration. A disadvantage of PyOL is the degradation of properties with respect to storage time. Therefore, a NTP reactor was developed to improve the PyOL properties. After NTP treatment, the aromatic and carbonyl ester groups decrease, the calorific value increased, and certain chemical compounds increased in concentration. This study provides operational parameters for the pilot scale pyrolysis (and waste-to-energy) process, improving the technical viability of scaling-up such systems. � 2023 Elsevier B.V. Final 2024-10-14T03:17:55Z 2024-10-14T03:17:55Z 2023 Article 10.1016/j.jaap.2023.106062 2-s2.0-85162903842 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85162903842&doi=10.1016%2fj.jaap.2023.106062&partnerID=40&md5=5c7d8b4b8fe90db5836744931e180b3b https://irepository.uniten.edu.my/handle/123456789/34088 173 106062 Elsevier B.V. Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Co-pyrolysis
Fast pyrolysis
Organic waste
Plasma reactor
Plastic waste
Carbon
Elastomers
Flues
Gas emissions
Land fill
Life cycle
Municipal solid waste
Pyrolysis
Volatile organic compounds
Copyrolysis
Fast pyrolysis
Large amounts
Liquid properties
Non-thermal plasma reactors
Organic wastes
Pilot scale
Plasma reactors
Plastics waste
Pyrolysis liquids
Flue gases
spellingShingle Co-pyrolysis
Fast pyrolysis
Organic waste
Plasma reactor
Plastic waste
Carbon
Elastomers
Flues
Gas emissions
Land fill
Life cycle
Municipal solid waste
Pyrolysis
Volatile organic compounds
Copyrolysis
Fast pyrolysis
Large amounts
Liquid properties
Non-thermal plasma reactors
Organic wastes
Pilot scale
Plasma reactors
Plastics waste
Pyrolysis liquids
Flue gases
Lim M.T.
Tan E.S.
Chai Y.H.
Chin B.L.F.
Juwono F.H.
Hisham D.H.B.
Mohamed Anuar M.A.
Pilot-scale flue gas pyrolysis system for organic and plastic wastes with improved liquid properties in a non-thermal plasma reactor
description A fast, oxidative pyrolysis system was developed to produce a pyrolysis liquid (PyOL) upgraded with a non-thermal plasma (NTP) reactor. In addition to the 1.8 million tonnes per annum of plastic wastes, large amounts of municipal solid waste in Malaysia end up in landfills, of which 40�60 % is organic or food waste. Organic and plastic wastes (OPW) can be used as carbon feedstocks for the pyrolysis process to produce PyOL, reducing the OPW disposal in landfills, and carbon emissions. However, the current pyrolysis methods use pure nitrogen, implying increased operational cost, and are commonly performed at the lab scale. In this study, flue gas was used for the pyrolysis of OPW at a pilot scale. The use of flue gas for PyOL production reduces the operational costs and lifecycle carbon emissions. Results show that the addition of a small percentage of plastics at the pyrolysis temperature of 350 �C increased the yield of liquid. However, large amounts of plastics resulted in significant material agglomeration. A disadvantage of PyOL is the degradation of properties with respect to storage time. Therefore, a NTP reactor was developed to improve the PyOL properties. After NTP treatment, the aromatic and carbonyl ester groups decrease, the calorific value increased, and certain chemical compounds increased in concentration. This study provides operational parameters for the pilot scale pyrolysis (and waste-to-energy) process, improving the technical viability of scaling-up such systems. � 2023 Elsevier B.V.
author2 56393739900
author_facet 56393739900
Lim M.T.
Tan E.S.
Chai Y.H.
Chin B.L.F.
Juwono F.H.
Hisham D.H.B.
Mohamed Anuar M.A.
format Article
author Lim M.T.
Tan E.S.
Chai Y.H.
Chin B.L.F.
Juwono F.H.
Hisham D.H.B.
Mohamed Anuar M.A.
author_sort Lim M.T.
title Pilot-scale flue gas pyrolysis system for organic and plastic wastes with improved liquid properties in a non-thermal plasma reactor
title_short Pilot-scale flue gas pyrolysis system for organic and plastic wastes with improved liquid properties in a non-thermal plasma reactor
title_full Pilot-scale flue gas pyrolysis system for organic and plastic wastes with improved liquid properties in a non-thermal plasma reactor
title_fullStr Pilot-scale flue gas pyrolysis system for organic and plastic wastes with improved liquid properties in a non-thermal plasma reactor
title_full_unstemmed Pilot-scale flue gas pyrolysis system for organic and plastic wastes with improved liquid properties in a non-thermal plasma reactor
title_sort pilot-scale flue gas pyrolysis system for organic and plastic wastes with improved liquid properties in a non-thermal plasma reactor
publisher Elsevier B.V.
publishDate 2024
_version_ 1814061103988080640
score 13.214268

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