A. Naukenova scite author profile

A. Naukenova

5Publications

28Citation Statements Received

133Citation Statements Given

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127

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M.Auezov South Kazakhstan State University

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Modeling of Non-Ferrous Metallurgy Waste Disposal with the Production of Iron Silicides and Zinc Distillation

et al. 2022

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This paper presents studies on the possibility of utilization of technogenic waste from the metallurgical industry by the method of complex processing in order to reduce the anthropogenic load on the environment of the region with the example of the zinc silicate-magnetite-carbon system. The selected sample of clinker dump from welting was subjected to chemical and scanning electron microscopic analyses and thermodynamic modeling. Thermodynamic studies were carried out in the temperature range 1600–2200 K and pressure p = 0.1 MPa, modeling the process of electric melting of clinker from welting in an arc furnace using the software application Astra 4 developed at the Bauman Moscow State Technical University (Moscow, Russian Federation). As a result of the thermodynamic modeling, the optimal temperature range was established, which was 1800–1900 K. Thermodynamic studies established that it is possible to drive away zinc from the system under study by 99–100% in the entire temperature range under study. The maximum degree of silicon extraction (αSi) in the alloy is up to 69.44% at T = 1900 K, and the degree of iron extraction (αFe) in the alloy is up to 99.996%. In particular, it was determined and proved that clinker waste from welting can act as a secondary technogenic raw material when it is processed as a mono mixture to produce iron silicides with a silicon content of 18 to 28%.

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Computer Modeling of Process of Flame Distribution and Attenuation in Narrow Channels

Sapargalieva

Alipova

Naukenova

et al. 2018

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Flame Distribution and Attenuation in Narrow Channels Using Mathematical Software

Sapargaliyeva¹,

Naukenova²,

Alipova³

et al. 2019

Adv. sci. technol. eng. syst. j.

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The article of given research presents the mathematical and computer modeling of flame attenuation in narrow channels for different fire extinguishing and explosion suppression compositions. Such kind of flame distribution and attenuation could be considered for different media and channels but in this case it was considered for narrow channels. The effect on the combustion reaction is possible with gas mixture components concentration reducing, cooling the combustion zone and slowing down of chain reactions with the help of a phlegmatizing or inhibiting substances, of which the most universal and perspective are powder materials. Therefore, a necessary condition for solving the problems of developing effective flame arresters is to find common indicators and properties of substances that can become criteria for their phlegmatizing ability. The computer model in MatLab was created for methane allowing the choice of diameter and length of channel and velocity of explosion suppression composition, showing the dependence of temperature on length of channel.

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Environmental Disposal of Large-Tonnage Industrial Waste for the Production of Fire Extinguishing Powders

Sapargaliyeva¹,

Naukenova²,

Shapalov³

et al. 2019

OF THE NATIONAL ACADEMY OF SCIENCES OF THE REPUBLIC OF KAZAKHS

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The Definition of the Fire-Extinguishing Efficiency of Pulverized Industrial Waste

Shapalov¹,

Sapargaliyeva²,

Naukenova³

et al. 2019

OF THE NATIONAL ACADEMY OF SCIENCES OF THE REPUBLIC OF KAZAKHS

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A. Naukenova

Modeling of Non-Ferrous Metallurgy Waste Disposal with the Production of Iron Silicides and Zinc Distillation

Computer Modeling of Process of Flame Distribution and Attenuation in Narrow Channels

Flame Distribution and Attenuation in Narrow Channels Using Mathematical Software

Environmental Disposal of Large-Tonnage Industrial Waste for the Production of Fire Extinguishing Powders

The Definition of the Fire-Extinguishing Efficiency of Pulverized Industrial Waste

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