Kinetic of Oil Sludge Thermolysis Process in Presence of Nickel, Cobalt and Iron-Supported Microsilicate
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Polish Journal of Chemical Technology
Abstract
The article is devoted to the experimental determination of thermokinetic parameters of oil sludge thermal degradation
using the model-free Ozawa-Flynn-Wall method in the presence of a nanocatalyst (nickel, cobalt and
iron-supported microsilicate) by calculating Arrhenius kinetic parameters (activation energy and pre-exponential
factor). The phase composition of the refl ex microsilicate was established – 4.12; 2.51 Å – SiO2, nickel-supported
microsilicate refl exes: 2.09; 1.48 Å – NiO, refl exes: 4.25 Å – SiO2 and acid numbers of microsilicate – 64 μmol/g
of prepared nanocatalysts. Using the method of Brunauer, Emmett and Teller, the specifi c surface area of the
microsilicate was established – 18.3 ± 0.3 m2/g, the microsilicate with nickel applied – 20.9 ± 0.2 m2/g and the
adsorption isotherm of the prepared nanocatalysts (microsilicate with nickel, cobalt and iron). Thermokinetic
parameters of thermal decomposition of oil sludge without a catalyst and with a catalyst at an increment of 0.9
are 99.0 and 93.3 kJ/mol nickel-supported microsilicate, 51.9 kJ/mol cobalt-supported microsilicate, 111.3 kJ/mol
iron-supported microsilicate and non-metal-supported microsilicate 173.7 kJ/mol, respectively. The study of the
kinetic parameters of pyrolysis of oil sludge using various catalysts makes it possible to assess their infl uence on the
process of decomposition of organic components. The results of the experiments showed that the use of catalysts
signifi cantly affects the destruction of oil sludge. Dynamic thermal analysis at different heating rates studied the
dynamics of oil sludge decomposition. The study of the effect of catalysts on the kinetic parameters of oil sludge
pyrolysis is an important step in the development of new methods for the disposal of petroleum products and the
reduction of their negative impact on the environment. The obtained experimental data on thermal degradation
kinetics of oil sludge will fi nd application in designing a reactor for the process of destructive hydrogenation of
heavy hydrocarbon raw materials.
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Kinetic of Oil Sludge Thermolysis Process in Presence of Nickel, Cobalt and Iron-Supported Microsilicate/Tyanakh S.[et al.] //Polish Journal of Chemical Technology. - 2023 - №25(3) - pp.101—109.