Geodesic
Numerical Model of Distribution of Impurities in the Atmosphere Taking into Account Local Meteorological Conditions
Itogi nauki i tehniki. Sovremennaâ matematika i eë priloženiâ. Tematičeskie obzory, Proceedings of the International Conference “Actual Problems of Applied Mathematics and Physics,” Kabardino-Balkaria, Nalchik, May 17–21, 2017, Tome 154 (2018), pp. 99-104.

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A three-dimensional mathematical model of the distribution of impurities from a short-term source taking into account meteorological conditions is presented. The model includes the system of equations of hydrothermodynamics describing regional atmospheric processes. The transfer of multicomponent gas impurities is calculated taking into account microphysical processes, precipitation and fog. Initial information for model initialization is aerological information in the form of actual or forecast fields of meteorological parameters and characteristics of sources of impurities. A numerical analysis of the distribution of impurities in the near zone of a cosmodrome from short-term sources such as engines of launch vehicles was performed for various meteorological parameters, including wind in the atmosphere.
Keywords: three-dimensional numerical model, impurities, launch vehicle, meteorological parameters, microphysical processes.
Mots-clés : distribution 
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     author = {V. I. Ryazanov and A. V. Shapovalov and V. A. Shapovalov and F. Kh. Uvizheva and M. A. Sherieva},
     title = {Numerical {Model} of {Distribution} of {Impurities} in the {Atmosphere} {Taking} into {Account} {Local} {Meteorological} {Conditions}},
     journal = {Itogi nauki i tehniki. Sovremenna\^a matematika i e\"e prilo\v{z}eni\^a. Temati\v{c}eskie obzory},
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     publisher = {mathdoc},
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     url = {http://geodesic.mathdoc.fr/item/INTO_2018_154_a11/}
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V. I. Ryazanov; A. V. Shapovalov; V. A. Shapovalov; F. Kh. Uvizheva; M. A. Sherieva. Numerical Model of Distribution of Impurities in the Atmosphere Taking into Account Local Meteorological Conditions. Itogi nauki i tehniki. Sovremennaâ matematika i eë priloženiâ. Tematičeskie obzory, Proceedings of the International Conference “Actual Problems of Applied Mathematics and Physics,” Kabardino-Balkaria, Nalchik, May 17–21, 2017, Tome 154 (2018), pp. 99-104. http://geodesic.mathdoc.fr/item/INTO_2018_154_a11/

[1] Aloyan A. E., Penenko V. V., Kozoderov V. V., “Matematicheskoe modelirovanie v probleme okruzhayuschei sredy”, Sovremennye problemy vychislitelnoi matematiki i matematicheskogo modelirovaniya, v. 2, Matematicheskoe modelirovanie, Nauka, M., 2005, 279–351 | MR

[2] Arkhipov V. A., Berezikov A. P., Sheremeteva U. M. i dr., “Modelirovanie rasprostraneniya aerozolnogo oblaka pri vybrose zhidkikh raketnykh topliv v atmosferu”, Optika atmosfery i okeana, 17:5-6 (2004), 488–493

[3] Berlyand M. E., Prognoz i regulirovanie zagryazneniya atmosfery, Gidrometeoizdat, L., 1985

[4] Vasyanina A. Yu., Tonkikh A. A., Antonovskii T. N., Shvetsova D. S., Chizhevskaya M. V., Nazarov V. P., “Vliyanie produktov sgoraniya zhidkogo i tverdogo raketnogo topliva na okruzhayuschuyu sredu”, Aktualnye problemy aviatsii i kosmonavtiki, 2014, no. 10, 211–212

[5] Marchuk G. I., Matematicheskoe modelirovanie v probleme okhrany okruzhayuschei sredy, Nauka, M., 1982

[6] Kagermazov A. Kh., “Validatsiya vykhodnykh dannykh Globalnoi Sistemy Prognozov GFS (Global Forecasts System) s rezultatami aerologicheskogo zondirovaniya”, Izv. KBNTs RAN, 59:3 (2014), 32–36

[7] Kerimov A. M., Korchagina E. A., Shapovalov A. V., Shapovalov V. A., Modeli i metody rascheta mezomasshtabnogo rasprostraneniya primesei v atmosfere, KBNTs RAN, Nalchik, 2008

[8] Shapovalov A. V., Shapovalov V. A., “Trekhmernaya vizualizatsiya geofizicheskoi informatsii dlya resheniya prikladnykh zadach”, Nauka. Innovatsii. Tekhnologii, 2014, no. 1 (5), 65–73

[9] Shapovalov A. V., Shapovalov V. A., Tapaskhanov V. O., Stasenko V. N., “Programmnoe obespechenie priema i predstavleniya informatsii novogo rossiiskogo DMRL-S”, Mat. Vseross. konf. po fizike oblakov i aktivnym vozdeistviyam na gidrometeorologicheskie protsessy, posv. 80-letiyu Elbrusskoi vysokogornoi kompleksnoi ekspeditsii AN SSSR, Nalchik, 2014, 131–137

[10] Shapovalov V. A., “Chislennaya model perenosa i diffuzii konservativnoi legkoi primesi pri zadannom pole skorosti vetra”, Tr. nauch.-prakt. konf. «Problemy informatizatsii obschestva i obrazovaniya», Nalchik, 2004, 52–54

[11] Kalnay E., Kanamitsu M., Baker W.E., “Global numerical weather prediction at the National Meteorological Center”, Bull. Am. Meteor. Soc., 71 (1990), 1410–1428 | 2.0.CO;2 class='badge bg-secondary rounded-pill ref-badge extid-badge'>DOI