Mining Science and Technology (Russia)
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Activities of the "Mining Science and Technology (Russia)" international journal are aimed at developing international scientific and professional cooperation in the field of mining. Scopus,CAS,GeoRef,Engineering Village,SJR, DOAJ (mst.misis.ru)
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What are the environmental consequences of mining operations in Arctic regions?

The problems of geoenvironmental consequences of mining operations are especially acute in the arctic and subarctic regions, where the spread of permafrost significantly reduces the buffering capacity of landscapes. The research, the results of which are published in the journal Mining Science and Technology, demonstrates data on the content of heavy metals in the soil cover of the transient zone between the middle taiga and north taiga landscapes of Western Yakutia under the conditions of mining operations. The authors proposed new approaches to evaluation assesses the resistance of different types of soils to heavy metals pollution. The heavy metals content was determined by atomic absorption spectrometry. Among the studied pollutants the greatest tendency to binding by natural organic ligands was revealed for such elements as lead and copper. Zinc and nickel will actively migrate in the ionic form. Cadmium occupies an intermediate position in terms of the ratio of ionic and organically bound forms. The data presented in the study can be used in monitoring the state of the soil cover in the mining zone.

For more information, see the article:

πŸ“Œ Titov A.S., Toropov A.S. Geoenvironmetal assessment of different types of cryolithic soils in Western Yakutia under the conditions of diamond-mining operations. Mining Science and Technology (Russia). 2024;9(2):170-182. https://doi.org/10.17073/2500-0632-2023-12-188

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#inenglish #MST #soil #heavymetals #pollution #cryolithic #WesternYakutia #diamond #mining #enterprises #geoecology #assessment #content #metals #cover #landscape #production #stability #analysis #spectrometry #modeling #structure #humus #migration #kimberlite #complex #geochemistry #thermodynamic #sample #horizon #zinc #nickel #cadmium #lead #copper #arsenic #mercury
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πŸ”₯ Coming soon: new issue of "Mining Science and Technology" Journal!

πŸ“… In the coming days, you'll discover fresh research, innovative technologies, and the latest trends in the mining industry.

This issue features:

πŸ“Œ Voznesenskii A. S., Ushakov E. I., Kutkin Ya. O. Fracture toughness of rock-concrete interfaces and its prediction based on acoustic properties.
πŸ“Œ Shilova T. V., Serdyukov S. V., Drobchik A. N. Experimental research of stress-strain properties of sandy soil when strengthened with polyurethane compounds.
πŸ“Œ Starikov A. N., Maltsev S. V., Sukhanov A. E. Influence of the sorption properties of potash salts on the gas environment in dead-end mine workings.
πŸ“Œ Chernyi K. А., Faynburg G. Z. Evaluation of variation of salt dust hygroscopic aerosol particle size as a function of relative air humidity.
πŸ“Œ Mirzaeva E. I., Isaeva N. F., Yalgashev E. Ya., Turdiyeva D. P., Boymonov R. M. Preparation of adsorbents for the extraction of heavy metals from mining wastewater.
πŸ“Œ Kotelnikova A. L., Zolotova E. S. Material composition of magnetic fractions of copper-smelting slag flotation tailings.
πŸ“Œ Rakhutin M. G., Tran V. H., Krivenko A. V., Giang Q. Kh. Impact of the technical condition of main pumps on fuel consumption in a hydraulic excavator.
πŸ“Œ Malafeev S. I., Malafeeva A. A., Konyashin V. I., Novgorodov A. A. Mechatronic system for running-in and testing of mechanical transmissions in mining shovels.
πŸ“Œ Klyuev R. V. Assessment of energy efficiency improvement strategies for ventilation and hoisting systems during the reconstruction of the Molibden mine.

πŸ“… The issue will be released in the coming days!

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πŸ‘‰ t.iss.one/MinSciTech πŸ‘ˆ

#InEnglish #MST #RockMechanics #Concrete #FractureToughness #Acoustics #SoilMechanics #Strength #Polyurethane #Mine #Ventilation #Methane #Safety #Aerosol #Ecology #HeavyMetals #Adsorption #WasteUtilization #Excavator #Hydraulics #EnergyEfficiency #Mining
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A new issue of Mining Science and Technology has been published! πŸŽ‰

Volume 1, 2025 of Mining Science and Technology is now available!

The complete table of contents can be accessed here:
πŸ‘‰ https://mst.misis.ru/jour/issue/view/42/showToc

Featured in this issue:

1️⃣ Voznesenskii А.S., Ushakov E.I., Kutkin Ya.O. Fracture toughness of rock-concrete interfaces and its prediction based on acoustic properties. Mining Science and Technology (Russia). 2025;10(1):5-14. https://doi.org/10.17073/2500-0632-2024-10-316
Full article

2️⃣ Shilova T.V., Serdyukov S.V., Drobchik A.N. Experimental research of stress-strain properties of sandy soil when strengthened with polyurethane compounds. Mining Science and Technology (Russia). Mining Science and Technology (Russia). 2025;10(1):15-24. https://doi.org/10.17073/2500-0632-2024-08-303
Full article

3️⃣ Starikov A.N., Maltsev S.V., Sukhanov A.E. Influence of the sorption properties of potash salts on the gas environment in dead-end mine workings. Mining Science and Technology (Russia). 2025;10(1):25-33. https://doi.org/10.17073/2500-0632-2024-01-210
Full article

4️⃣ Chernyi K.A., Faynburg G.Z. Evaluation of variation of salt dust hygroscopic aerosol particle size as a function of relative air humidity. Mining Science and Technology (Russia). 2025;10(1):34-44. https://doi.org/10.17073/2500-0632-2024-07-283
Full article

5️⃣ Mirzaeva E.N., Isaeva N.F., Yalgashev E.Ya., et al. Preparation of adsorbents for the extraction of heavy metals from mining wastewater. Mining Science and Technology (Russia). 2025;10(1):45-55. https://doi.org/10.17073/2500-0632-2024-02-224
Full article

6️⃣ Kotelnikova А.L., Zolotova E.S. Material composition of magnetic fractions of copper-smelting slag flotation tailings. Mining Science and Technology (Russia). 2025;10(1):56-66. https://doi.org/10.17073/2500-0632-2023-08-142
Full article

7️⃣ Rakhutin M.G., Tran V.H., Krivenko A.E., Giang Q.Kh. Impact of the technical condition of main pumps on fuel consumption in a hydraulic excavator. Mining Science and Technology (Russia). 2025;10(1):67-74. https://doi.org/10.17073/2500-0632-2024-01-179
Full article

8️⃣ Malafeev S.I., Malafeeva A.A., Konyashin V.I., Novgorodov A.A. Mechatronic system for running-in and testing of mechanical transmissions in mining shovels. Mining Science and Technology (Russia). 2025;10(1):75-83. https://doi.org/10.17073/2500-0632-2024-05-262
Full article

9️⃣ Klyuev R.V. Assessment of energy efficiency improvement strategies for ventilation and hoisting systems during the reconstruction of the Molibden mine. Mining Science and Technology (Russia). 2025;10(1):84-94. https://doi.org/10.17073/2500-0632-2024-10-362
Full article

πŸ”— All articles are freely available in open access!

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#InEnglish #MST #RockMechanics #Concrete #FractureToughness #Acoustics #SoilMechanics #Strength #Polyurethane #Mine #Ventilation #Methane #Safety #Aerosol #Ecology #HeavyMetals #Adsorption #WasteUtilization #Excavator #Hydraulics #EnergyEfficiency #Mining
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We present the articles of the first issue of scientific journal "Mining Science and Technology” (Russia) for 2025:

Scientists have developed a new method for producing adsorbents to extract heavy metals from mining wastewater. Mining and metallurgical operations generate large volumes of liquid waste containing valuable components. Processing copper-zinc ores produces metal-laden effluents with a wide range of accompanying elements, complicating treatment due to low concentrations of individual components and pH fluctuations. Heavy metals such as Cu²⁺, Zn²⁺, and Fe²⁺ are highly toxic, non-biodegradable, and can accumulate in living organisms, posing risks to ecosystems and human health. Researchers proposed using zeolites based on kaolin and bentonite as an efficient alternative to chemical precipitation. These adsorbents exhibit high ion-exchange capacity, are easily regenerated, and release non-toxic Na⁺ cations into the environment. The novelty of the method lies in using waste Alβ‚‚O₃–NaAlOβ‚‚ suspension to adjust the composition of the alkaline alloy during zeolite synthesis, ensuring a specific crystalline structure. The technology involves alkaline fusion of bentonite or kaolin with sodium hydroxide, followed by dissolving the alloy in water, filtration, and hydrothermal crystallization. Optimized synthesis conditions achieved a metal recovery rate of 95% from model solutions with initial concentrations of 150 mg/L Cu²⁺, 180 mg/L Zn²⁺, and 125 mg/L Fe²⁺. The resulting zeolite adsorbents can be used to treat metal-contaminated water in closed-loop water systems, reducing environmental impact and conserving resources.

For more information, see the article:

πŸ“Œ Mirzaeva E.N., Isaeva N.F., Yalgashev E.Ya., Turdiyeva D.P., Boymonov R.M. Preparation of adsorbents for the extraction of heavy metals from mining wastewater. Mining Science and Technology (Russia). 2025;10(1):45-55. https://doi.org/10.17073/2500-0632-2024-02-224

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πŸ‘‰ t.iss.one/MinSciTech πŸ‘ˆ

#InEnglish #MST #ore #processing #ecology #wastewater #treatment #heavymetals #adsorption #aluminosilicates #kaolin #zeolites #bentonite #crystallization #diffractogram #Uzbekistan #Almalyk #mining #metallurgy #water #pollution #science #technology #chemistry #research #Cu #Zn #Fe #Na #SiO2 #Al2O3 #NaOH
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We present the articles of the first issue of scientific journal "Mining Science and Technology” (Russia) for 2025:

Scientists studied finely ground tailings from the flotation processing of slags at the Sredneuralsky Copper Smelter ("SUMZ technical sands"), which contain zinc (3.3–3.9%) and copper (0.4–0.5%). These wastes can serve both as a source of valuable metals and as a potential environmental hazard. The study examined the material composition of the magnetic fractions of the "technical sands" and evaluated the efficiency of wet magnetic separation for extracting valuable components. Chemical and phase analyses revealed that zinc and copper were distributed relatively evenly across the fractions, with a slight increase in copper in the non-magnetic fraction and zinc in the weakly magnetic fraction. The application of wet magnetic separation under standard conditions proved insufficiently effective, indicating the need for further research to optimize the technology. The results are important for developing new methods of processing copper smelting waste and reducing its environmental impact.

For more information, see the article:

πŸ“Œ Kotelnikova А.L., Zolotova E.S. Material composition of magnetic fractions of copper-smelting slag flotation tailings. Mining Science and Technology (Russia). 2025;10(1):56-66. https://doi.org/10.17073/2500-0632-2023-08-142

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πŸ‘‰ t.iss.one/MinSciTech πŸ‘ˆ

#InEnglish #MST #CopperSmeltingProduction #MineralWaste #CopperSmeltingSlag #FlotationTailings #Recycling #MagneticSeparation #ThermomagneticAnalysis #MagneticFractions #MagneticProperties #Fayalite #Forsterite #Diopside #Magnetite #Sphalerite #Zincite #HeavyMetals #WasteProcessing #NonferrousMetallurgy #EnvironmentalImpact #ResourceRecovery #SlagUtilization #Geochemistry #Mineralogy #SustainableMining #TechnogenicRawMaterials #Copper #Slags #Zinc #Waste #Flotation #Separation #Magnetism #Minerals #Ecology #Processing #Research #Technologies #Utilization #Disposal #Geology
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