Glass fiber-reinforced polyester composite (GFRPs) scraps from manufacturing of polyester laminates were pyrolyzed at 500, 550 and 600°C in an 70 Kg innovative batch pilot plant that processes whole parts. The presence of a hydraulic guard guarantees the safefty of the process. The influence of the maximum process temperature on yields and chemical-physical properties of pyrolysis products was investigated: the oil fraction was analysed by GC-MS, Viscometer and XRF, while the gas fraction was monitored online during the entire pyrolysis process by μ-GC. Substantial fractions of methane (20.7 vol%) and hydrogen (11.5 vol%) were produced. The solid residue (glass fibers covered by a thin carbonaceous layer) underwent an oxidative process at 500 and 600°C at different residence times to provide clean glass fibers free of organic residues. The effects of both pyrolysis and oxidative step on the glass fibers, obtained in different process conditions, were evaluated by SEM and Raman spectroscopy.
Pyrolysis of fiberglass/polyester composites: Recovery and characterization of obtained products / Giorgini, Loris; Leonardi, Chiara; Mazzocchetti, Laura; Zattini, Giorgio; Cavazzoni, Massimo; Montanari, Ivan; Tosi, Cristian; Benelli, Tiziana. - In: FME TRANSACTIONS. - ISSN 1451-2092. - STAMPA. - 44:4(2016), pp. 405-414. [10.5937/fmet1604405G]
Pyrolysis of fiberglass/polyester composites: Recovery and characterization of obtained products
GIORGINI, LORIS;LEONARDI, CHIARA;MAZZOCCHETTI, LAURA;ZATTINI, GIORGIO;BENELLI, TIZIANA
2016
Abstract
Glass fiber-reinforced polyester composite (GFRPs) scraps from manufacturing of polyester laminates were pyrolyzed at 500, 550 and 600°C in an 70 Kg innovative batch pilot plant that processes whole parts. The presence of a hydraulic guard guarantees the safefty of the process. The influence of the maximum process temperature on yields and chemical-physical properties of pyrolysis products was investigated: the oil fraction was analysed by GC-MS, Viscometer and XRF, while the gas fraction was monitored online during the entire pyrolysis process by μ-GC. Substantial fractions of methane (20.7 vol%) and hydrogen (11.5 vol%) were produced. The solid residue (glass fibers covered by a thin carbonaceous layer) underwent an oxidative process at 500 and 600°C at different residence times to provide clean glass fibers free of organic residues. The effects of both pyrolysis and oxidative step on the glass fibers, obtained in different process conditions, were evaluated by SEM and Raman spectroscopy.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
