Вестник МГТУ, 2023, Т. 26, № 1.

Амосов П. В. и др. Разработка модели аэротермодинамики атмосферы. Wang Y., Du C., Xu H. Key factor analysis and model establishment of blasting dust diffusion in a deep, sunken open-pit mine // ACS Omega. 2021. Vol. 6, Iss. 1. Р. 448-455. DOI: https://dx.doi.org/10.1021/acsomega.0c04881. Westphal D. L., Toon O. B., Carlson T. N. A case study of mobilization and transport of Saharan dust // Journal of the Atmospheric Sciences. 1988. Vol. 45, Iss. 15. Р. 2145-2175. DOI : https://doi.org/10.1175/1520- 0469(1988)045<2145:ACSOMA>2.0.CO;2. References Amosov, P. V. 2022. The results of the analysis of numerical simulation of the process of ventilation of the open pit at different locations of the dust and gas cloud and variation of wind flow velocity. Bulletin o f the Saint Petersburg State Institute o f Technology (Technical University), 60(86), pp. 63-69. DOI: 10.36807/1998­ 9849-2022-60-86-63-69. EDN: GLRSBT. (In Russ.) Amosov, P. V., Baklanov, A. A., Makarov, D. V., Masloboev, V. А. 2022. Numerical modeling of atmospheric pollution in the approaches of random selection of discrete dusting sites and interval distribution of dust size. Vestnik o fMSTU, 25(1), pp. 61-73. DOI: https://doi.org/10.21443/1560-9278-2022-25-1-61-73. EDN: YBIHJK. (In Russ.) Amosov, P. V., Baklanov, А. А., Masloboev, V. А. 2018a. Justification of the methodical approach to estimation of dust intensity at tailing dump. Vestnik Kolskogo nauchnogo tsentra, 1(10), pp. 5-14. DOI: https://doi.org/ 10.25702/KSC.2307-5228-2018-10-1-5-14. (In Russ.) Amosov, P. V., Kozyrev, S. А., Nazarchuk, О. V. 2019. Investigation of the influence of the thermal factor on the aerodynamic parameters of the open-pit atmosphere based on three-dimensional computer modeling. Mining Informational and Analytical Bulletin (scientific and technical journal), 11(S37), pp. 322-332. EDN: TNQCLC. (In Russ.) Amosov, P. V., Kozyrev, S. А., Nazarchuk, О. V. 2018b. Development of a computer model of atmospheric aerothermodynamics open-pit at Ansys Fluent. Bulletin o f the Saint Petersburg State Institute o f Technology (Technical University), 44(70), pp. 121-125. DOI: 10.15217/issn1998984-9.2018.44.121. (In Russ.) Amosov, P. V., Novozhilova, N. V. 2015. Investigation of the influence of the temperature gradient on the formation of the meteofields of the open-pit atmosphere on the basis of numerical modeling. Mining Informational andAnalytical Bulletin (scientific and technicaljournal), S56, pp. 528-534. (In Russ.) Amosov, P., Baklanov, A., Rigina, O. 2014. Numerical modeling of tailings dusting processes. LAP LAMBERT Academic Publishing. (In Russ.) Baklanov, A. A. 1988. Numerical modeling in mine aerology. Apatity. (In Russ.) Baklanov, A. A., Lukovskyi, V. D., Rigina, О. Yu. 1995. Modern ideas about ventilation of open-pits. Apatity. (In Russ.) Bashirov, N. R. 2018. Method of dynamic design of dumps with preliminary simulation of air flow. Minerals andMining Engineering , 2, pp. 40-47. DOI: https://doi.org/10.21440/0536-1028-2018-2-40-47. EDN: YSHQWA. (In Russ.) Berlyand, М. Е. 1975. Modern problems of atmospheric diffusion and atmospheric pollution. Leningrad. (In Russ.) Bublik, S. А., Semin, М. А. 2022. Mathematical modeling of heat and air distribution in open-pits with natural ventilation. Gornoe echo, 1(86), pp. 126-133. EDN: LWBUVJ. (In Russ.) Gendler, S. G., Borisovskij, I. А. 2021. Assessment of the features of the formation of temperature inversions during open-pit mining in the Arctic. News o f the Tula state university. Sciences o f Earth, 4, pp. 59-75. DOI: https://doi.org/10.46689/2218-5194-2021-4-1-59-75. EDN: THVQHT. (In Russ.) Gridina, Е. B., Petrov, I. А. 2017a. The effect of the exhaust air of an underground mine on the atmosphere of a deep open-pit with a combined method of mining the deposit. Mining Informational andAnalytical Bulletin (scientific and technicaljournal), S 5-1, pp. 24-31. EDN : XQMDKX. ( In Russ.) Gridina, Е. B., Petrov, I. А. 2017b. Experience of mathematical modeling of the process of ventilation of the Olenegorsky open-pit in the FlowVision software package. Mining Informational and Analytical Bulletin (scientific and technicaljournal), S 5-1, pp. 32-42. EDN: XQMDLF. (In Russ.) Kachurin, N. М., Stas, G. V., Levin, А. D., Rybak, V. L. 2016. Aerodynamics of coal mine dumps. News o f the Tula State University. Sciences o fEarth, 1, pp. 23-33. EDN: VTFVCB. (In Russ.) Kozyrev, S. А., Amosov, P. V. 2015. Modeling of removal of harmful impurities during ventilation of deep open-pits with the help of ventilation mine workings. Mining Informational and Analytical Bulletin (scientific and technicaljournal), S 56, pp. 390-398. (In Russ.) Kozyrev, S. А., Amosov, P. V., Nikitin, R. М., Massan, V. V. 2017. Three-dimensional computer simulation of the aerodynamics of the atmosphere of deep open-pits. Mining Informational and Analytical Bulletin (scientific and technicaljournal), S 5-1, pp. 84-92. EDN : URRDBR. ( In Russ.) Kozyrev, S. А., Amosov, P. V. 2014. Ways to normalize the atmosphere of deep open-pits. Vestnik o fMSTU, 17(2), pp. 231-237. EDN : SMTOEH. ( In Russ.) 42