1. Ktisis Cyprus University of Technology
  2. Cyprus University of Technology (Research Output)
  3. Κεφάλαια βιβλίων/Book chapters
Please use this identifier to cite or link to this item: https://hdl.handle.net/20.500.14279/23787
DC FieldValueLanguage
dc.contributor.authorHafeez, Sanaa-
dc.contributor.authorPallari, Elena-
dc.contributor.authorManos, George-
dc.contributor.authorConstantinou, Achilleas-
dc.date.accessioned2022-01-24T12:43:15Z-
dc.date.available2022-01-24T12:43:15Z-
dc.date.issued2019-
dc.identifier.citationPlastics to energy : fuel, chemicals, and sustainability implications, 2019, pp. 147-172en_US
dc.identifier.isbn978-0-12-813140-4-
dc.identifier.urihttps://hdl.handle.net/20.500.14279/23787-
dc.description.abstractPolymers are large molecules, whether natural or synthetic, that are brought together through polymerization and give rise to a wide range of products and applications in the manufacturing, medical, engineering, fashion, and aviation sector. The increase in the world’s demand for polymers has led to an accumulation of plastic waste in the environment, specifically in landfills, that has serious consequences to human and animal health. The nonbiodegradable nature of synthetic polymers has produced the need for more sustainable and efficient waste processing methods like pyrolysis. Pyrolysis is a chemical process that treats plastic waste with thermal energy to recover desirable products such as fuels for energy and chemical feedstocks. This process has attracted a lot of attention due to the fact that it does not produce harmful gases, and has lower carbon monoxide and dioxide emissions when compared to other plastic solid waste (PSW) methods. In this work, the catalytic and noncatalytic methods are discussed along with an in-depth review of the different techniques used in the pyrolysis process. The operation variables effect is also discussed, as well as the different reactor types. A review of different processing and co-processing methods is also highlighted.en_US
dc.formatpdfen_US
dc.language.isoenen_US
dc.rights© Elsevieren_US
dc.subjectPolymersen_US
dc.subjectWasteen_US
dc.subjectRecoveryen_US
dc.subjectRecyclingen_US
dc.subjectConversionen_US
dc.subjectPyrolysisen_US
dc.subjectCatalystsen_US
dc.subjectEnergyen_US
dc.titleCatalytic conversion and chemical recoveryen_US
dc.typeBook Chapteren_US
dc.collaborationLondon South Bank Universityen_US
dc.collaborationKing's College Londonen_US
dc.collaborationUniversity College Londonen_US
dc.subject.categoryChemical Sciencesen_US
dc.countryUnited Kingdomen_US
dc.subject.fieldNatural Sciencesen_US
dc.publicationPeer Revieweden_US
dc.identifier.doi10.1016/B978-0-12-813140-4.00006-6en_US
dc.identifier.scopus2-s2.0-85071839072en
dc.identifier.urlhttps://api.elsevier.com/content/abstract/scopus_id/85071839072en
dc.contributor.orcid#NODATA#en
dc.contributor.orcid#NODATA#en
dc.contributor.orcid#NODATA#en
dc.contributor.orcid#NODATA#en
cut.common.academicyear2018-2019en_US
dc.identifier.spage147en_US
dc.identifier.epage172en_US
item.languageiso639-1en-
item.cerifentitytypePublications-
item.fulltextNo Fulltext-
item.grantfulltextnone-
item.openairetypebookPart-
item.openairecristypehttp://purl.org/coar/resource_type/c_3248-
crisitem.author.deptDepartment of Chemical Engineering-
crisitem.author.facultyFaculty of Geotechnical Sciences and Environmental Management-
crisitem.author.orcid0000-0002-7763-9481-
crisitem.author.parentorgFaculty of Geotechnical Sciences and Environmental Management-
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