Thermodynamic Simulation of Environmental and Population Protection by Utilization of Technogenic Tailings of Enrichment

Olga Kolesnikova; Samal Syrlybekkyzy; Roman Fediuk; Almas Yerzhanov; Rashid Nadirov; Akmaral Utelbayeva; Aktolkyn Agabekova; Marina Latypova; Larissa Chepelyan; Irina Volokitina; Nikolai Ivanovich Vatin; Alexandr Kolesnikov; Mugahed Amran

doi:10.3390/ma15196980

Thermodynamic Simulation of Environmental and Population Protection by Utilization of Technogenic Tailings of Enrichment

Olga Kolesnikova
, Samal Syrlybekkyzy
, Roman Fediuk
, Almas Yerzhanov
, Rashid Nadirov
, Akmaral Utelbayeva
, Aktolkyn Agabekova
, Marina Latypova
, Larissa Chepelyan
, Irina Volokitina
, Nikolai Ivanovich Vatin
, Alexandr Kolesnikov
, Mugahed Amran

Civil Engineering

Research output: Contribution to journal › Article › peer-review

42 Scopus citations

Abstract

During mining, only 4–8% is converted to final products, and the rest is accumulated in landfills. There is a lack of research on the study of various patterns and mechanisms of the formation of cement clinker minerals during the simultaneous distillation of zinc. This paper presents studies of thermodynamic stimulation of environmental and population protection by utilization of technogenic enrichment waste as secondary raw materials for clinker production and zinc extraction. In particular, a comparison of the Gibbs energy (ΔG) of clinker formation under standard chemical equations and under non-standard chemical equations is given. According to the results of the study, using thermodynamic simulation, the temperature intervals of mineral formation, the dependence of the Gibbs energy on temperature (ΔG_T°), and the approximation equations were found; it was established that the presence of zinc ferrite contributes to the intensification of the formation of clinker minerals and the extraction of Zn to gas.

Original language	English
Article number	6980
Journal	Materials
Volume	15
Issue number	19
DOIs	https://doi.org/10.3390/ma15196980
State	Published - Oct 2022

Keywords

cement clinker minerals
environmental and population protection
raw materials
recycling
thermodynamics simulation
waste
zinc ferrite
zinc sublimations

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10.3390/ma15196980

Cite this

Kolesnikova, O., Syrlybekkyzy, S., Fediuk, R., Yerzhanov, A., Nadirov, R., Utelbayeva, A., Agabekova, A., Latypova, M., Chepelyan, L., Volokitina, I., Vatin, N. I., Kolesnikov, A., & Amran, M. (2022). Thermodynamic Simulation of Environmental and Population Protection by Utilization of Technogenic Tailings of Enrichment. Materials, 15(19), Article 6980. https://doi.org/10.3390/ma15196980

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title = "Thermodynamic Simulation of Environmental and Population Protection by Utilization of Technogenic Tailings of Enrichment",

abstract = "During mining, only 4–8\% is converted to final products, and the rest is accumulated in landfills. There is a lack of research on the study of various patterns and mechanisms of the formation of cement clinker minerals during the simultaneous distillation of zinc. This paper presents studies of thermodynamic stimulation of environmental and population protection by utilization of technogenic enrichment waste as secondary raw materials for clinker production and zinc extraction. In particular, a comparison of the Gibbs energy (ΔG) of clinker formation under standard chemical equations and under non-standard chemical equations is given. According to the results of the study, using thermodynamic simulation, the temperature intervals of mineral formation, the dependence of the Gibbs energy on temperature (ΔGT°), and the approximation equations were found; it was established that the presence of zinc ferrite contributes to the intensification of the formation of clinker minerals and the extraction of Zn to gas.",

keywords = "cement clinker minerals, environmental and population protection, raw materials, recycling, thermodynamics simulation, waste, zinc ferrite, zinc sublimations",

author = "Olga Kolesnikova and Samal Syrlybekkyzy and Roman Fediuk and Almas Yerzhanov and Rashid Nadirov and Akmaral Utelbayeva and Aktolkyn Agabekova and Marina Latypova and Larissa Chepelyan and Irina Volokitina and Vatin, \{Nikolai Ivanovich\} and Alexandr Kolesnikov and Mugahed Amran",

note = "Publisher Copyright: {\textcopyright} 2022 by the authors.",

year = "2022",

month = oct,

doi = "10.3390/ma15196980",

language = "English",

volume = "15",

journal = "Materials",

issn = "1996-1944",

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number = "19",

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Kolesnikova, O, Syrlybekkyzy, S, Fediuk, R, Yerzhanov, A, Nadirov, R, Utelbayeva, A, Agabekova, A, Latypova, M, Chepelyan, L, Volokitina, I, Vatin, NI, Kolesnikov, A & Amran, M 2022, 'Thermodynamic Simulation of Environmental and Population Protection by Utilization of Technogenic Tailings of Enrichment', Materials, vol. 15, no. 19, 6980. https://doi.org/10.3390/ma15196980

TY - JOUR

T1 - Thermodynamic Simulation of Environmental and Population Protection by Utilization of Technogenic Tailings of Enrichment

AU - Kolesnikova, Olga

AU - Syrlybekkyzy, Samal

AU - Fediuk, Roman

AU - Yerzhanov, Almas

AU - Nadirov, Rashid

AU - Utelbayeva, Akmaral

AU - Agabekova, Aktolkyn

AU - Latypova, Marina

AU - Chepelyan, Larissa

AU - Volokitina, Irina

AU - Vatin, Nikolai Ivanovich

AU - Kolesnikov, Alexandr

AU - Amran, Mugahed

PY - 2022/10

Y1 - 2022/10

N2 - During mining, only 4–8% is converted to final products, and the rest is accumulated in landfills. There is a lack of research on the study of various patterns and mechanisms of the formation of cement clinker minerals during the simultaneous distillation of zinc. This paper presents studies of thermodynamic stimulation of environmental and population protection by utilization of technogenic enrichment waste as secondary raw materials for clinker production and zinc extraction. In particular, a comparison of the Gibbs energy (ΔG) of clinker formation under standard chemical equations and under non-standard chemical equations is given. According to the results of the study, using thermodynamic simulation, the temperature intervals of mineral formation, the dependence of the Gibbs energy on temperature (ΔGT°), and the approximation equations were found; it was established that the presence of zinc ferrite contributes to the intensification of the formation of clinker minerals and the extraction of Zn to gas.

AB - During mining, only 4–8% is converted to final products, and the rest is accumulated in landfills. There is a lack of research on the study of various patterns and mechanisms of the formation of cement clinker minerals during the simultaneous distillation of zinc. This paper presents studies of thermodynamic stimulation of environmental and population protection by utilization of technogenic enrichment waste as secondary raw materials for clinker production and zinc extraction. In particular, a comparison of the Gibbs energy (ΔG) of clinker formation under standard chemical equations and under non-standard chemical equations is given. According to the results of the study, using thermodynamic simulation, the temperature intervals of mineral formation, the dependence of the Gibbs energy on temperature (ΔGT°), and the approximation equations were found; it was established that the presence of zinc ferrite contributes to the intensification of the formation of clinker minerals and the extraction of Zn to gas.

KW - cement clinker minerals

KW - environmental and population protection

KW - raw materials

KW - recycling

KW - thermodynamics simulation

KW - waste

KW - zinc ferrite

KW - zinc sublimations

UR - https://www.scopus.com/pages/publications/85140003818

U2 - 10.3390/ma15196980

DO - 10.3390/ma15196980

M3 - Article

AN - SCOPUS:85140003818

SN - 1996-1944

VL - 15

JO - Materials

JF - Materials

IS - 19

M1 - 6980

ER -

Thermodynamic Simulation of Environmental and Population Protection by Utilization of Technogenic Tailings of Enrichment

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Keywords

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