Библиографический список |
1. Dvoynikov M. V., Nutskova M. V., Blinov P. A. Developments made in the field of drilling fluids by Saint Petersburg Mining University. International Journal of Engineering. 2020. Vol. 33, Iss. 4. pp. 702–711. 2. Petrova T. A., Astapenko T. S., Kologrivko A. A., Esman M. M. Reducing the geoenvironmental impact of halite waste storage. GIAB. 2022. No. 10-1. pp. 155–162. 3. Kantyukov R. R., Zapevalov D. N., Vagapov R. K. Analysis of the application and impact of carbon dioxide media on the corrosion state of oil and gas facilities. Journal of Mining Institute. 2021. Vol. 250. pp. 578–586. 4. Kalaeva S. Z., Chistyakov Ya. V., Muratova K. M., Chebotarev P. M. Influencing finedispersed dust upon biosphere and human. Izvestiya Tulskogo gosudarstvennogo universiteta. Nauki o Zemle. 2016. No. 3. pp. 40–53. 5. Sharov N. A., Dudaev R. R., Krishchuk D. I., Liskova M. Yu. Dust suppression methods in coal mines of the Far North. Vestnik PNIPU. Geologiya. Neftegazovoe i gornoe delo. 2019. Vol. 19, No. 2. pp. 184–200. 6. Arkhipov V. A., Paleev D. Yu., Patrakov Yu. F., Usanina A. S. Coal dust wettability estimation. Journal of Mining Science. 2014. Vol. 50, No. 3. pp. 587–594. 7. Katola V. M., Komogortseva V. E. Dust: sources of formation, its general characteristics and dust diseases (brief review). Byulleten fiziologii i patologii dykhaniya. 2018. Vol. 1, No. 67. pp. 111–116. 8. Shakhparonova T., Sobianina D., Karapetyan K. Development of a dissolution model of a vitreous phosphorus-containing fertilizer concerning interdiffusion applied for calculation of fertilizer doses. Research on Crops. 2021. Vol. 22, Iss. 2. pp. 279–284. 9. Makarov D. V., Svetlov A. V., Goryachev A. A., Konina O. T., Masloboev V. A. Tailings dust em issions caused by the climate change: A case-study of a mine in Russia’s Far North. GIAB. 2021. No. 5. pp. 122–133. 10. Meshkov A. A., Korshunov G. I., Kondrasheva N. K., Eremeeva A. M., Seregin A. S. Method of Reducing Air Pollution of the Coal Mines Working Areas with Diesel Locomotives Harmful Emissions. Bezopasnost truda v promyshlennosti. 2020. No. 1. pp. 68–72. 11. Ivanova L. A., Gorbacheva T. T., Makarov D. V., Rumyantseva A. V. Some aspects of physicochemical and biological methods for the conservation of apatite–nepheline tailings in the Far North. Power Technology and Engineering. 2019. Vol. 53, No. 1. pp. 47–50. 12. Zhu G., Zhao J., Chen Q., Guo Q., Cheng D. et al. The comparative potential of four Compositae plants for phytoremediation of karst lead/zinc mine tailings contaminated soil. BioResources. 2022. Vol. 17, Iss. 2. pp. 2997–3013. 13. Nunes F. C., Alves L. de J., Prasad M. N. V., de Carvalho C. C. N., Nolasco E. C. Phytoremediation strategies for rehabilitation of soils affected by red mud: The mariana tailing dam collapse (Minas Gerais, Brazil). Eurasian Soil Science. 2022. Vol. 55, No. 5. pp. 673–685. 14. Masoud Bazgir, Davood Namdar Khojasteh. Biological, chemical and mineral mulches effect on stabilization of dust storm sources, case study: Ilam Province. Watershed Engineering and Management. 2018. Vol. 10, Iss. 4. pp. 701–713. 15. Lukyanov V. G., Shmurygin V. A., Zabuga V. S. Introduction and use of air-mechanical foams created by foam generators for dust suppression in drilling. Vestnik nauki Sibiri. 2013. No. 1(7). pp. 1–4. 16. Taehee Lee, Sangsik Kim, Samuel Kim, Na-Yeon Kwon, Sangchul Rho et al. Environmentally friendly methylcellulose-based binders for active and passive dust control. ACS Applied Materials & Interfaces. 2020. Vol. 12, Iss. 45. pp. 50860–50869. 17. Bazhin V., Masko O. Monitoring of the behaviour and state of nanoscale particles in a gas cleaning system of an ore-thermal furnace. Symmetry. 2022. Vol. 14, Iss. 5. 923. DOI: 10.3390/sym14050923 18. Toufigh V., Ghassemi P. Control and stabilization of fugitive dust: using eco-friendly and sustainable materials. International Journal of Geomechanics. 2020. Vol. 20, No. 9. DOI: 10.1061/(ASCE)GM.1943-5622.0001762 19. Roozbeh Owji, Ghassem Habibagahi, Ehsan Nikooee, Sayed Fakhreddin Afzali. Wind erosion control using carboxymethyl cellulose: From sand bombardment performance to microfabric analysis. Aeolian Research. 2021. Vol. 50. 100696. DOI: 10.1016/j.aeolia.2021.100696 20. Tyutrin A. A., Burdonov A. E., Bushuev K. S. Expanding the application scope of fine dust from petroleum coke calcining furnaces in aluminum production. Materials Science Forum. 2022. Vol. 1052. pp. 482–487. 21. Ivanik S. A., Ilyukhin D. A. Flotation extraction of elemental sulfur from gold-bearing cakes. Journal of Mining Institute. 2020. Vol. 242. pp. 202–208. 22. Pashkevich M. A., Danilov A. S. Ecological security and sustainability. Journal of Mining Institute. 2023. Vol. 260. pp. 153–154. 23. Mylona E., Xenidis A., Csövári M., Ném eth G. Application of dry covers for the closure of tailings facilities. Land Contamination & Reclamation. 2007. Vol. 15, Iss. 2. pp. 163–182. 24. Nikolovska A., Gjorgievska E., Tasevska M. Ecological and cost-effective solution for soil stabilization: Prevention of fugitive dust generation. Polluting the Cities in Macedonia: What are the Solutions? : Conference. Skopje, 2019. 25. Kassymkanova K.-K., Jangulova G., Issanova G., Turekhanova V., Zhalgasbekov Y. Geomechanical processes and their assessment in the rock massifs in Central Kazakhstan. Series: SpringerBrief in Earth Sciences. Cham : Springer, 2020. 94 p. 26. Lebedev A. B., Utkov V. A., Khalifa A. A. Sintered sorbent utilization for H2S removal from industrial flue gas in the process of smelter slag granulation. Journal of Mining Institute. 2019. Vol. 237. pp. 292–297. 27. González-Chávez M. C. A., Santiago-Martinez M. E., Corona-Sánchez J. E., Ruiz-Olivares A., Carrillo-González R. Wild plants canopies may adsorb dust particles eroded from mine tailings, decreasing potentially toxic elements dispersion. International Journal of Environmental Science and Technology. 2023. Vol. 20, Iss. 2. pp. 1277–1288. 28. Teper E. Dust-particle migration around flotation tailings ponds: pine needles as passive samplers. Environmental Monitoring and Assessment. 2009. Vol. 154, Iss. 1-4. pp. 383–391. 29. Khademi H., Abbaspour A., Martínez-Martínez S., Gabarrón M., Shahrokh V. et al. Provenance and environmental risk of windblown materials from mine tailing ponds, Murcia, Spain. Environmental Pollution. 2018. Vol. 241. pp. 432–440.
30. Subbir Parvej, Dayakar L. Naik, Hizb Ullah Sajid, Ravi Kiran, Ying Huang et al. fugitive dust suppression in unpaved roads: State of the art research review. Sustainability. 2021. Vol. 13, Iss. 4. 2399. DOI: 10.3390/su13042399 31. LA-950 Laser Particle Size Analyzer. HORIBA. Available at: https://www.horiba.com/details/la-950-laser-particle-size-analyzer-108/ (accessed: 15.06.2023). 32. Hadjiev A., Hadjiev P. On some methods for surface erosion control on tailings ponds and waste fly-ash piles. 50 years University of Mining and Geology “St. Ivan Rilski” (1953–2003): Annual of the university of mining and geology “St. Ivan Rilski”. Sofia, 2003. Vol. 46, Iss. 2. Mining and Mineral Processing. pp. 185–187. 33. Matveeva V. A., Smirnov Yu. D., Suchkov D. V. Industrial processing of phosphogypsum into organomineral fertilizer. Environmental Geochemistry and Health. 2022. Vol. 44, Iss. 5. pp. 1605–1618. 34. Amponsah-Dacosta F. A Field-scale performance evaluation of erosion control measures for slopes of mine tailings dams. Proceedings of the 10th International Conference on Acid Rock Drainage & IMWA Annual Conference. Santiago, 2015. Vol. 3. pp. 1419–1425. |