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Paper ID: UIJRTV4I10007
Volume: 04
Issue: 01
Pages: 49-56
Date: November 2022
ISSN: 2582-6832
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Esther Chioma Udochukwu, Emmanuel Abraham Zinom and Moses A. Olutoye, 2022. Synthesis and Characterization of Fuel Oil Produced by the Catalytic Pyrolysis of Used Tyres. United International Journal for Research & Technology (UIJRT), 4(1), pp49-56.
Abstract
The effective solid waste management and transformation of wastes to useful products have been utilized. In this study, the catalytic pyrolysis of disposed tyres using NaOH Catalyst, in a pilot scale continuous stirred tank reactor was carried out. The  experiment was carried out at varying operating conditions, from which the optimum yield of 52.075 % of fuel oil was achieved at the decomposition temperature, heating rate and the catalytic concentration of 700 oC, 40 oC/min and 12.5 % respectively. The characterization of the produced fuel oil properties compared favourably with that of conventional diesel fuel with heating value of 42.407 MJ/kg, within the standard range of 42 – 44.5 MJ/kg and the Cetane number of 48.511 falls within the recommended range. Furthermore, the FTIR analysis showed that the pr0duced 0il c0ntained c0mplex mixture 0f comp0unds with C6 – C18 carb0n 0f paraffins, naphthenes, 0lefins, and ar0matics c0mp0und that are f0und in standard conventional diesel fuel. The GC-MS analysis showed 84.4325 area-percentage of 41 hydrocarbon compounds comprising of 30.24 % Aromatics (Benzene, Tuolene and Xylene Compounds), 32.43 % Paraffin, 30.52 % non-saturated Alkenes and Alkynes compounds, 6.68 % sulphuric compound and 0.13 % of Nitrogen compound. Catalytic pyrolysis with NaOH is capable of converting disposed tyres to a valuable product that has the potential to be used as an alternative source of energy, could also be used as reformate or even blended with conventional fuel.

Keywords: Biodiesel, Catalytic Pyrolysis, Energy, Pyrolyzed oil Characterization, Solid Waste Management, Waste Tyres.


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