D.E. Aitbekova scite author profile

D.E. Aitbekova

5Publications

5Citation Statements Received

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Karagandy State University

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Thermokinetic parameters of the primary coal tars destruction in the presence of catalysts and polymeric materials

Balpanova¹,

Байкенов²,

Gyul’maliev³

et al. 2021

Bull. of the Kar. Univ. "Chem". Ser.

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The hydrogen-donor abilities of polymers and the activity of catalysts in the process of thermal destruction of the organic mass of primary coal tar (PCT) are studied by non-isothermal kinetics methods. PCT,magnetic microspheres, nickel-deposited chrysotilechrysotile and Fe3O4nanocatalysts were used as initial raw materials. Рolymers such as polyethylene (PE), polystyrene(PS) and polyethylene glycol (PEG) were selected as a hy-drogen donor. The phases Mg3[OH]4{Si2O5} and NiO were determined by X-ray phase analysis (XRD) in the obtained catalyst (nickel-deposited chrysotile), and the presence of highly dispersed nickel oxide particles on the surface and inside the nanotubes was shown by the transmission electron microscope (TEM). Nickel oxide particles of 8–11 nmand 30–37 nmwere evenly distributed on the surface and inside the chrysotile nanotubes. The kinetic parameters of the thermal destruction of a mixture of PCT, catalyst and polymer material were determined on the basis of thermogravimetric analysis using the integral method and the method for determin-ing the thermokinetic parameters by the inflection point on the thermogravimetric curve(TG). The change in the activation energy, rate constant and pre-exponential factor with an increase in the degree of destruction of the organic mass of the PCT is established. It was shown that the nature of polymers and catalysts significantly affects the value of the rate constant and the activation energy. The calculated activation energies of the thermal destruction of a mixture of coal tar with PS and PE in the presence of a catalyst (nickel-deposited chrysotile) by the first method are 47.6 kJ/mol and 40.4 kJ/mol, and by the second method are 47.3 kJ/mol and 86.5kJ/mol respectively.

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Hydrogenation of polyaromatic compounds over NiCo/chrysotile catalyst

Байкенов¹,

Aitbekova²,

Balpanova³

et al. 2021

Bull. of the Kar. Univ. "Chem". Ser.

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The activity and selectivity of the bimetallic NiCo/chrysotile catalyst during the hydrogenation of model objects (anthracene and phenanthrene) for 1 hour at an initial hydrogen pressure of 3 MPa and a temperature of 400 °C were studied. The chrysotile mineral used as a substrate for active centers of nickel and cobalt is a waste product of asbestos production at Kostanay Minerals JSC (the Republic of Kazakhstan). The catalyst was characterized by a complex of methods of physical and chemical analysis. The chrysotile mineral consists of nanotubes with an inner diameter of about 10 nm and an outer diameter of about 60 nm. The amount of hydrogenation products is 61.91 %, destruction — 15.08 % and isomerization — 8.37 % during the hydrogenation of anthracene. The amount of hydrogenation products is 26.09 %, and that of destruction is 2.51 % during the hydrogenation of phenanthrene. It was found that the catalyst selectively accelerates the hydrogenation reaction and allows increasing the yields of hydrogenation products. The schemes of the hydrogenation reaction of model objects were drawn up according to the results of gas chromatography-mass spectrometric analysis of hydrogenates.

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Catalytic Hydrogenation of a Model Mixture of Anthracene and Phenanthrene

Aitbekova

Мейрамов

et al. 2019

Solid Fuel Chem.

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Каталитическая Гидрогенизация Модельной Смеси Антрацена И Фенантрена

Aitbekova¹,

Юн²,

Мейрамов³

et al. 2019

Химия тверд. топлива

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Hydrogen distribution in primary coke oventar and its fractions

Aitbekova¹,

Makenov²,

Андрейков³

et al. 2021

Bull. of the Kar. Univ. "Chem". Ser.

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The aim of this work is to determine the hydrogen distribution in primary coke oven tar and its fractions. The hydrogen distribution in the primary coke oven tar of «ShubarkolKomir» JSC, its distillate fractions and dis-tillation residue have been determined by the methods of elemental analysis, IR and PMR spectroscopy. The atomic ratio of C: H in the primary coke oven tar is 0.79. All fractions of the tar contain a large amount of al-kyl-substituted aromatic compounds, phenols and other substances with alkyl groups. The initial tarcharac-terized by a high content of hydrogen in the α-and β-positions to the aromatic ring, 29% and 34% respec-tively, which indicates a large number of alkyl substituents in the aromatic rings and near double bonds. The total amount of aliphatic and aromatic hydrogen in the tar is 79% and 21% respectively. Olefinic hydrogen is presented in the initial tar in an amount of 8%. It is possible to make a choice of techniques for further processing (hydrogenation, coking, thermal cracking) to obtain products with high added value on the basis of determination of the elemental composition, quantitative distribution of hydrogen in the primary coke oven tar and its fractions by the using of above mentioned physical and chemical methods.

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D.E. Aitbekova

Thermokinetic parameters of the primary coal tars destruction in the presence of catalysts and polymeric materials

Hydrogenation of polyaromatic compounds over NiCo/chrysotile catalyst

Catalytic Hydrogenation of a Model Mixture of Anthracene and Phenanthrene

Каталитическая Гидрогенизация Модельной Смеси Антрацена И Фенантрена

Hydrogen distribution in primary coke oventar and its fractions

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