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Thermal and catalytic pyrolysis of a mixture of plastics from small waste electrical and electronic equipment (WEEE)

TitleThermal and catalytic pyrolysis of a mixture of plastics from small waste electrical and electronic equipment (WEEE)
Publication TypeArticolo su Rivista peer-reviewed
Year of Publication2016
AuthorsSantella, C., Cafiero Lorenzo M., De Angelis Doina, La Marca F., Tuffi Riccardo, and S. Ciprioti Vecchio
JournalWaste Management
Volume54
Pagination143-152
ISSN0956053X
KeywordsCatalysts, Catalytic conditions, Catalytic pyrolysis, Chemical analysis, Chemical compounds, Cracking (chemical), Elastomers, electronic equipment, Mixtures, Oscillators (electronic), Plastic mixtures, Plastics, Process condition, Proximate analysis, Pyrolysis, Small WEEE, styrene, Synthetic mixtures, Waste electrical and electronic equipment, Waste incineration, Zeolites
Abstract

Pyrolysis seems a promising route for recycling of heterogeneous, contaminated and additives containing plastics from waste electrical and electronic equipment (WEEE). This study deals with the thermal and catalytic pyrolysis of a synthetic mixture containing real waste plastics, representative of polymers contained in small WEEE. Two zeolite-based catalysts were used at 400 °C: HUSY and HZSM-5 with a high silica content, while three different temperatures were adopted for the thermal cracking: 400, 600 and 800 °C. The mass balance showed that the oil produced by pyrolysis is always the main product regardless the process conditions selected, with yields ranging from 83% to 93%. A higher yield was obtained when pyrolysis was carried out with HZSM-5 at 400 °C and without catalysts, but at 600 and 800 °C. Formation of a significant amount of solid residue (about 13%) is observed using HUSY. The oily liquid product of pyrolysis, analysed by GC-MS and GC-FID, as well as by elemental analysis and for energy content, appeared lighter, less viscous and with a higher concentration of monoaromatics under catalytic condition, if compared to the liquid product derived from thermal degradation at the same temperature. HZSM-5 led to the production of a high yield of styrene (17.5%), while HUSY favoured the formation of ethylbenzene (15%). Energy released by combustion of the oil was around 39 MJ/kg, thus suggesting the possibility to exploit it as a fuel, if the recovery of chemical compounds could not be realised. Elemental and proximate analysis of char and GC-TCD analysis of the gas were also performed. Finally, it was estimated to what extent these two products, showing a relevant ability to release energy, could fulfil the energy demand requested in pyrolysis. © 2016 Elsevier Ltd.

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URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-84966700354&doi=10.1016%2fj.wasman.2016.05.005&partnerID=40&md5=3ed705dfd1bf87ff367ed0d0ebe004a4
DOI10.1016/j.wasman.2016.05.005
Citation KeySantella2016143