Geodesic
An integrated set of simplest models describing the evolution of instable rocket-prodused ``ozone hole''
Matematičeskoe modelirovanie, Tome 21 (2009) no. 9, pp. 16-26.

Voir la notice de l'article provenant de la source Math-Net.Ru

Dynamical response of stratosphere perturbed by space vehicles is studied using mathematical models and tools. Asymptotic technique enabled to investigate different scenaria of the rocket-produced “ozone hole” appearance and its evolution. Descriptive models of turbulence concerned with the rocket exhaust cloud as well as its transport and chemical parameters are upgraded essentially. Results obtained are valid well to improve physical resolution of respective computer models. 
@article{MM_2009_21_9_a1,
     author = {V. N. Bakulin and O. V. Yatcenko and E. N. Ladosha and V. A. Potopachin},
     title = {An integrated set of simplest models describing the evolution of instable rocket-prodused ``ozone hole''},
     journal = {Matemati\v{c}eskoe modelirovanie},
     pages = {16--26},
     publisher = {mathdoc},
     volume = {21},
     number = {9},
     year = {2009},
     language = {ru},
     url = {http://geodesic.mathdoc.fr/item/MM_2009_21_9_a1/}
}
TY  - JOUR
AU  - V. N. Bakulin
AU  - O. V. Yatcenko
AU  - E. N. Ladosha
AU  - V. A. Potopachin
TI  - An integrated set of simplest models describing the evolution of instable rocket-prodused ``ozone hole''
JO  - Matematičeskoe modelirovanie
PY  - 2009
SP  - 16
EP  - 26
VL  - 21
IS  - 9
PB  - mathdoc
UR  - http://geodesic.mathdoc.fr/item/MM_2009_21_9_a1/
LA  - ru
ID  - MM_2009_21_9_a1
ER  - 
%0 Journal Article
%A V. N. Bakulin
%A O. V. Yatcenko
%A E. N. Ladosha
%A V. A. Potopachin
%T An integrated set of simplest models describing the evolution of instable rocket-prodused ``ozone hole''
%J Matematičeskoe modelirovanie
%D 2009
%P 16-26
%V 21
%N 9
%I mathdoc
%U http://geodesic.mathdoc.fr/item/MM_2009_21_9_a1/
%G ru
%F MM_2009_21_9_a1
V. N. Bakulin; O. V. Yatcenko; E. N. Ladosha; V. A. Potopachin. An integrated set of simplest models describing the evolution of instable rocket-prodused ``ozone hole''. Matematičeskoe modelirovanie, Tome 21 (2009) no. 9, pp. 16-26. http://geodesic.mathdoc.fr/item/MM_2009_21_9_a1/

[1] A. V. Adushkin (red.), Ekologicheskie problemy i riski vozdeistviya raketno-kosmicheskoi tekhniki na okruzhayuschuyu prirodnuyu sredu, Spravochnoe posobie, Ankil, M., 2000, 640 pp.

[2] Pirumov U. G., Matematicheskoe modelirovanie v problemakh okhrany vozdushnogo basseina, Izd-vo MAI, M., 2001, 244 pp.

[3] Bakulin V. N., Potopakhin V. A., Yatsenko O. V., “Modeli fiziko-khimicheskogo vozmuscheniya ozonosfery, soprovozhdayuschego zapuski raket-nositelei”, Mat. modelirovanie, 17:8 (2005), 81–94 | Zbl

[4] Yatsenko O. V., Ladosha E. N., “Teoreticheskaya otsenka vliyaniya reaktivnykh vybrosov raket-nositelei na stratosfernyi ozon”, Bezopasnost zhiznedeyatelnosti, 2005, no. 8, 31–35

[5] Yatsenko O. V., Ladosha E. N., “Kosmicheskaya ekologiya: antropogennye vozdeistviya na stratosfernyi ozon pri zapuskakh zhidkotoplivnykh raket-nositelei (teoreticheskie otsenki, kompyuternaya imitatsiya)”, Inzh. ekologiya, 2005, no. 6, 27–45

[6] Yatsenko O. V., “Sistema modelei i utochnennye otsenki vozdeistviya raketnoi tekhniki na stratosfernyi ozon”, Obozrenie prikl. i prom. matematiki, 13:3 (2006), 570

[7] Yatsenko O. V., Ladosha E. N., “KINKAT – generator-analizator chislennykh modelei khimicheski i opticheski aktivnykh gazov dlya tekhnicheskikh i ekologicheskikh prilozhenii”, Obozrenie prikl. i prom. matematiki, 13:1 (2006), 167–168

[8] Bakulin V. N., Ladosha E. N., Potopakhin V. A., Yatsenko O. V., “Programmnye sredstva sinteza i analiza kompyuternykh modelei (foto)-khimicheski aktivnykh gazov dlya aerokosmicheskikh issledovanii”, Mat. modelirovanie, 18:9 (2006), 79–91 | Zbl

[9] Ladosha E. N., Kompyuternye modeli reagiruyuschikh gazov v zadachakh tekhnicheskoi ekologii, diss. kand. tekh. nauk, RGU, Rostov n/D, 2006, 154 pp.

[10] Yatsenko O. V., “Matematicheskoe modelirovanie vozmuschenii ozonosfery pri zapuskakh aerokosmicheskoi tekhniki”, Zhurn. prikl. khimii, 76:11 (2003), 1827–1833

[11] Arnold V. I., Dopolnitelnye glavy teorii obyknovennykh differentsialnykh uravnenii, Nauka, M., 1978, 304 pp. | MR

[12] Malinetskii G. G., Potapov A. B., Sovremennye problemy nelineinoi dinamiki, Editorial URSS, M., 2000, 336 pp.

[13] Yatsenko O. V., Ladosha E. N., “Modelirovanie fiziko-khimicheskikh vzaimodeistvii aerokosmicheskikh sistem s zemnoi atmosferoi: Ch. 4. Otsenka vozdeistviya raketnoi tekhniki na stratosfernyi ozon asimptoticheskimi metodami”, Izv. vuzov. Sev.-Kavk. region. Estestv. Nauki, 2005, no. 2, 59–64 | MR | Zbl

[14] Yu. S. Sedunov (red.), Atmosfera, Spravochnik, Gidrometeoizdat, L., 1991, 482 pp.

[15] Brase G., Solomon S., Aeronomiya srednei atmosfery, Gidrometeoizdat, L., 1987, 413 pp.

[16] Mak-Iven M., Filips L., Khimiya atmosfery, Mir, M., 1978, 376 pp.

[17] DeMore W. B. at al., Chemical kinetics and photochemical data for use in stratospheric modeling. Valuation 9, 90-1, NASA/JPL Publ., 1990

[18] Sedov L. I., Metody podobiya i razmernosti v mekhanike, Nauka, M., 1987, 432 pp. | MR