Waste plastics: lignite mixtures co‐liquefaction over Si/Al catalysts

The results of an investigation of the conversion of lignite and post‐consumer polymers into liquid products are reported in this paper. At first, a series of silica‐alumina acidic catalysts were prepared by sol‐gel chemistry with different Si/Al compositions and the catalysts ratio of Bronsted to L...

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Veröffentlicht in:	Waste management & research 1999-06, Vol.17 (3), p.181-185
Hauptverfasser:	Gimouhopoulos, Kostas, Doulia, Danae, Vlyssides, Apostolos, Georgiou, Dimitri
Format:	Artikel
Sprache:	eng
Schlagworte:	Acidity Biodegradation Bronsted Catalysts col‐iquefaction Environmental impact Lewis acidity lignite Lignite liquefaction Polyethylenes Polyisoprenes Polystyrenes Sol-gels waste plastics
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creator	Gimouhopoulos, Kostas Doulia, Danae Vlyssides, Apostolos Georgiou, Dimitri
description	The results of an investigation of the conversion of lignite and post‐consumer polymers into liquid products are reported in this paper. At first, a series of silica‐alumina acidic catalysts were prepared by sol‐gel chemistry with different Si/Al compositions and the catalysts ratio of Bronsted to Lewis acid sites was determined. Then thermal and catalytic col‐iquefactions were attempted on 1/1 mixtures of lignite and waste plastics, e.g., PS, PISO and PE. It was found that the catalysts prepared enhanced oil formation in all cases although lignite and polymeric materials demonstrated a variety of catalytic characteristics. Thermal and catalytic reactions of polystyrene (PS) and polyisoprene (PISO) showed that both polymers were liquefied easily at 420°C while polyethylene (PE) did not interact promptly under the same conditions. The conversion of the solid materials correlated with the concentration of Bronsted acidity on the catalysts employed.
doi_str_mv	10.1034/j.1399-3070.1999.00018.x
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At first, a series of silica‐alumina acidic catalysts were prepared by sol‐gel chemistry with different Si/Al compositions and the catalysts ratio of Bronsted to Lewis acid sites was determined. Then thermal and catalytic col‐iquefactions were attempted on 1/1 mixtures of lignite and waste plastics, e.g., PS, PISO and PE. It was found that the catalysts prepared enhanced oil formation in all cases although lignite and polymeric materials demonstrated a variety of catalytic characteristics. Thermal and catalytic reactions of polystyrene (PS) and polyisoprene (PISO) showed that both polymers were liquefied easily at 420°C while polyethylene (PE) did not interact promptly under the same conditions. 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subjects	Acidity Biodegradation Bronsted Catalysts col‐iquefaction Environmental impact Lewis acidity lignite Lignite liquefaction Polyethylenes Polyisoprenes Polystyrenes Sol-gels waste plastics
title	Waste plastics: lignite mixtures co‐liquefaction over Si/Al catalysts
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