Litcius/Paper detail

Valuable oil recovery from plastic wastes via pressurized thermal and catalytic pyrolysis

Rusul M. Khazaal, Dhuha A. Abdulaaima

2023Energy Conversion and Management X27 citationsDOIOpen Access PDF

Abstract

The accumulating amounts of long-life plastic wastes simultaneously with the global emerging need to discover alternative energy sources, have both increased the importance of plastic pyrolysis-based refineries. This study was devoted to examine the effectiveness of municipal plastic wastes recycling into a potential source of hydrocarbon fuel. Thermoplastic wastes of polypropylene (PP), polystyrene (PS), high-density and low-density polyethylene (HDPE) (LDPE), were converted into a combustible oil via semi-batch pressurized thermal (Th-PP) and catalytic pyrolysis (Cat-PP) in a fixed-bed reactor. During Th-PP, the recovered amounts of oil were (67.6 % −89.25 %) in the order PP > LDPE > HDPE > PS. Moreover, it was shown that 77.5% of the PP pyro-oil was in the range of gasoline fraction (C6 – C12) with maximum iso-paraffins of 12.52% compared to other plastic pyro-oils. The Cat-PP process, involved the catalytic cracking via a Ni-Mo-w/zeolite-based catalyst (Z-503). It was noticed that the catalyst resulted in further cracking reactions leading to the increase of the light gases vs oil product. Oil yields via Cat-PP were (55.1%–68.2%) in the order LDPE > PP > PS > HDPE. The catalytic pyrolysis showed a major tendency to the formation of diesel (C12 – C24). However, the selectivity analysis regarding both physical and chemical characteristics of the obtained oils vs conventional fuels, indicated that PP pyro-oil produced via the thermal pyrolysis, exhibited the highest selectivity of all oils towards conventional gasoline. This study has introduced a promising alternative energy source together with an effective recycling technology, solving the environmental plastic dilemma.

Topics & Concepts

High-density polyethyleneLow-density polyethyleneDiesel fuelPyrolysisFluid catalytic crackingMaterials scienceGasolinePolypropyleneFuel oilPolyethyleneCatalysisChemical engineeringCrackingWaste managementHydrocarbonOrganic chemistryChemistryComposite materialEngineeringThermochemical Biomass Conversion ProcessesRecycling and Waste Management TechniquesThermal and Kinetic Analysis