Журнал Российского общества по неразрушающему контролю и технической диагностике
The journal of the Russian society for non-destructive testing and technical diagnostic
 
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23 | 11 | 2024
2022, 06 June

DOI: 10.14489/td.2022.06.pp.024-029

Kharlamov N. R., Kiryanova A. D., Larionov N. M., Karakeyan V. I., Ryabyshenkov A. S.
ASSESSMENT OF THE AMOUNT OF EMISSIONS OF POLLUTANTS INTO THE ATMOSPHERE
(pp. 24-29)

Abstract. The results of the assessment of the composition of emissions of pollutants during the process of epitaxy into the atmosphere are presented. Using the example of a typical model of the epitaxy process and instrumental measurements, it was found that in the air removed from the epitaxy and charge discharge installations, the lead content is at the level of 99 %. Based on the material balance, the total lead emission capacity and its gross values are determined for the current and expanded production scale. It is shown that with an increase in the volume of production, the size of the sanitary protection zone of the enterprise is subject to revision in the direction of increase.

Keywords: pollutants, material balance, source of atmospheric air pollution, epitaxy, gross emission, sanitary protection zone.

 N. R. Kharlamov, A. D. Kiryanova, N. M. Larionov, V. I. Karakeyan, A. S. Ryabyshenkov (National Research University “MIET”, Moscow, Zelenograd, Russia)

1. Harlamov N. R., Ryabyshenkov A. S., Karakeyan V. I., Nikulina I. M. (2020). Ensuring production and environmental safety of a microelectronics enterprise. Modern scientific research: a collection of scientific papers based on the materials of the XXVII International Scientific and Practical Conference, pp. 115 – 122. Anapa: Izdatel'stvo «NITs ESP» v YuFO. [in Russian language]
2. Patrusheva T. N., Barashkov V. A., Churbakova O. V., Petrov S. K. (2018). Ecological Problems of Electronic Means Productions and Utilization. Journal of Siberian Federal University and Technologies, Vol. 11, (6), pp. 679 – 693. DOI 10.17516/1999-494X-0085.
3. Yanchenko R. A., Sokov V. A. (2018). Comprehensive assessment of the environmental situation of the Zelenograd science-intensive natural and technical geosystem. Materials of the 7th International Scientific and Practical Conference "Education and Science in Modern Realities", pp. 114 – 117. Cheboksary. [in Russian language]
4. On approval of sanitary rules and norms SanPin 2.1.3684–21 “Sanitary and epidemiological requirements for the maintenance of territories of urban and rural settlements, for water bodies, drinking water and drinking water supply, atmospheric air, soils, residential premises, operation of industrial, public premises, organizations and carrying out sanitary and anti-epidemiological (preventive) measures”. (2022). Moscow: AO «Kodeks». [in Russian language]
5. Abdukaeva A. A., El'shin L. A. (2019). Analysis of the dependence of the incidence of the population on emissions of pollutants into the air. Nauchnye trudy Tsentra perspektivnyh ekonomicheskih issledovaniy, 16, pp. 140 – 149. [in Russian language]
6. Masyugin A. N., Fisenko O. B., Rybina U. I., Filippson G. Yu. (2019). Interaction of Magnetic and Dielectric Subsystes in a Bismuth Nodymic Ferrite-Granate. Siberian Journal of Science and Technology, Vol. 20, pp. 112 – 118. DOI 10.31772/2587-6066-2019-20-1-112-118.
7. Sharipov M. Z., Sokolov B. Yu., Hayitov D. E. (2015). Magnetic Structure of Rare-Earth Iron-Garnet. Privolzhsky Scientific Bulletin, 44(4-1), pp. 7 – 10.
8. Krapuhin V. V., Timoshina G. G. (2004). Ecology of the production of materials and components of electronic equipment: a course of lectures. Moscow: MISiS. Available at: https://www.rosmedlib.ru/book/Misis_142.html (Accessed: 23.12.2021). [in Russian language]
9. Patrakova G. R. (2016). Calculation of the sanitary protection zone of a chemical technology enterprise and justification of its size. Vestnik Kazanskogo tekhnologicheskogo universiteta, 16, pp. 79 – 82. [in Russian language]
10. Rules for the establishment of sanitary protection zones and the use of land plots located within the boundaries of sanitary protection zones. (2018). Moscow. [in Russian language]
11. Pleshko E. S., Ryabyshenkov A. S., Gundartcev M. A., Nikulina I. M. (2020). Modeling the Distribution of Impurities in the Atmosphere from the Stationary Point Source. ElConRus, pp. 2490 – 2492. DOI 10.1109/EIConRus49466.2020.9038985.
12. Protection of Nature. Atmosphere. Methods for determining the velocity and consumption of gas and dust flows from stationary sources of pollution. (2003). Ru Standard No. GOST 17.2.4.06–90. Moscow: Izdatel'stvo standartov. [in Russian language]

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