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Yana V. Ustinova
Yana V. Ustinova
Associate Professor, Ph.D.
Saint Petersburg Mining University
Associate Professor, Ph.D.
Saint Petersburg Mining University

Articles

Energy industry
  • Date submitted
    2023-01-12
  • Date accepted
    2023-06-20
  • Date published
    2023-07-19

Improvement of energy efficiency of ore-thermal furnaces in smelting of alumosilicic raw materials

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The issues of energy saving in pyrometallurgical production during processing of mineral raw materials in ore-thermal furnaces are particularly important for the development of new energy-efficient technologies. The reduction of the specific power consumption during melting at different stages of heating and melting of charge materials when modeling is related to obtaining kinetic curves in the process of kyanite concentrate regeneration in polythermal conditions. Based on practical data of carbo-thermal reduction the mathematical modeling of reduction processes from alumosilicic raw materials – kyanite was carried out. In this work, the nonisothermal method based on a constant rate of charge heating (i.e. a linear dependence between time and temperature) was used for the reduction of kyanite charge, which saves electrical energy. The experiments were carried out on a high-temperature unit with a heater placed in a carbon-graphite crucible. Based on the obtained kinetic dependences of nonisothermal heating of enriched kyanite concentrates in plasma heating conditions we obtained a number of kinetic anamorphoses of the linear form which point to the possibility of describing the reaction rate using the modified Kolmogorov – Erofeev equation for given heating conditions and within a narrow temperature range. The complex of mathematical modeling makes it possible to create a control algorithm of technological process of reduction of kyanite concentrate to a metallized state within the specified temperature range for the full flow of reaction exchange and to reduce the specific power consumption by 15-20 %. With the help of the received kinetic dependences, taking into account the thermodynamics of processes and current state of the art it is possible to create a universal thermal unit for the optimal carbothermal reduction of charge to a metallized state (alloy) with minimum power inputs compared to existing technologies.

How to cite: Bazhin V.Y., Ustinova Y.V., Fedorov S.N., Shalabi M.E.K. Improvement of energy efficiency of ore-thermal furnaces in smelting of alumosilicic raw materials // Journal of Mining Institute. 2023. Vol. 261. p. 384-391. EDN RTQXSE
Geotechnical Engineering and Engineering Geology
  • Date submitted
    2021-02-24
  • Date accepted
    2022-04-06
  • Online publication date
    2022-05-27
  • Date published
    2022-07-13

Study of the kinetics of the process of producing pellets from red mud in a hydrogen flow

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The reduction kinetics of serial phase transitions of iron oxides during reduction to a metallized state with different modes of technical hydrogen supply has been studied and substantiated. The results of the pellets formation when 3-5 % molasses is added to the red mud as a binding reagent are presented. The dependences of the reduction rate of iron oxides on the hydrogen flow rate are obtained. Based on the results of the experiments, a kinetic model was constructed, and with the help of X-ray phase and spectral analysis, it was proved that the agglomerates formed after heat treatment received high strength due to the adhesion of reduced iron particles with red mud particles. The use of a new type of charge materials in melting units will reduce the amount of emissions and dust fractions, as well as increase the metal yield.

How to cite: Khalifa A.A., Bazhin V.Y., Ustinova Y.V., Shalabi M.E. Study of the kinetics of the process of producing pellets from red mud in a hydrogen flow // Journal of Mining Institute. 2022. Vol. 254. p. 261-270. DOI: 10.31897/PMI.2022.18