Feedstock recycling from plastic and thermoset fractions of used computers (I): pyrolysis

The increasing production of computers, the progress in their performance, and the shorter time between innovation and production has led to increasing numbers of obsolete products. It has thus become necessary to recover some materials from old computers and to protect the environment from a new ty...

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Published inJournal of material cycles and waste management Vol. 8; no. 2; pp. 99 - 108
Main Authors Vasile, Cornelia, Brebu, Mihai Adrian, Karayildirim, Tammer, Yanik, Jale, Darie, Hristea
Format Journal Article
LanguageEnglish
Published Dordrecht Springer Nature B.V 01.09.2006
Subjects
Acrylonitrile
Batch reactors
Bromine
Casings
Chromatography
Degradation products
Epoxy resins
Flame retardants
Gas chromatography
Halogens
Mass spectrometry
Nitrogen
Nuclear fuels
Petrochemicals
Petrochemicals industry
Printed circuit boards
Pyrolysis
Recycling
Styrene
Sulfur
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Summary:The increasing production of computers, the progress in their performance, and the shorter time between innovation and production has led to increasing numbers of obsolete products. It has thus become necessary to recover some materials from old computers and to protect the environment from a new type of pollution. Such recycling is difficult because of the diversity of polymeric materials used, e.g., thermoplastics (polystyrene or acrylonitrile-butadiene-styrene) and thermosets (epoxy resins), and the relatively high levels of flame retardants (halogen- and nitrogen-containing compounds) added during production. Pyrolysis seems to be a suitable way to recover materials and energy from such waste without component separation if an efficient method for reducing toxic compounds can be applied. In this study, the pyrolysis of plastic and thermoset fractions (keyboards, casings, printed circuit boards, and mixtures thereof) of used computers was studied by thermogravimetry and batch reactor pyrolysis. The degradation products were separated into three fractions, solid, liquid, and gaseous, each of them being characterized by suitable methods such as gas chromatography (GC-MSD, gas chromatography-mass spectrometry detection; GC-AED, gas chromatography-atomic emission detection), infrared (FT-IR) and 1H-NMR (nuclear magnetic resonanace) spectroscopy, and elemental analysis. It has been established that most of the halogens, nitrogen, and sulfur is concentrated in the residue. However, the elimination of hazardous toxic compounds, mainly those containing bromine, is necessary before being able to safely use the pyrolysis oils as fuels or in refinery or petrochemical industry flows.[PUBLICATION ABSTRACT]
Bibliography:ObjectType-Article-2
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ISSN:1438-4957
1611-8227
DOI:10.1007/s10163-006-0151-z