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@article{IZKAB_2008_6_a3,
author = {E. A. Korchagina and D. D. Kuliev and A. V. Shapovalov},
title = {Convective clouds microstructure modeling},
journal = {News of the Kabardin-Balkar scientific center of RAS},
pages = {155--161},
publisher = {mathdoc},
number = {6},
year = {2008},
language = {ru},
url = {http://geodesic.mathdoc.fr/item/IZKAB_2008_6_a3/}
}
TY - JOUR AU - E. A. Korchagina AU - D. D. Kuliev AU - A. V. Shapovalov TI - Convective clouds microstructure modeling JO - News of the Kabardin-Balkar scientific center of RAS PY - 2008 SP - 155 EP - 161 IS - 6 PB - mathdoc UR - http://geodesic.mathdoc.fr/item/IZKAB_2008_6_a3/ LA - ru ID - IZKAB_2008_6_a3 ER -
E. A. Korchagina; D. D. Kuliev; A. V. Shapovalov. Convective clouds microstructure modeling. News of the Kabardin-Balkar scientific center of RAS, no. 6 (2008), pp. 155-161. http://geodesic.mathdoc.fr/item/IZKAB_2008_6_a3/
[1] A. Kh. Adzhiev, S. T. Tamazov, “Razdelenie elektricheskikh zaryadov pri kristallizatsii kapel vody”, Meteorologiya i gidrologiya, 1987, no. 7, 57–62
[2] B. A. Ashabokov, Kh. Kh. Kalazhokov, Chislennoe modelirovanie gradovykh oblakov, Gidrometizdat, M., 1992
[3] I. M. Imyanitov, E. V. Chubarina, Ya. M. Shvarts, Elektrichestvo oblakov, Gidrometeoizdat, L., 1971
[4] E. L. Kogan, I. P. Mazin, B. N. Sergeev, V. I. Khvorostyanov, Chislennoe modelirovanie oblakov, Gidrometeoizdat, M., 1984
[5] E. A. Korchagina, I. M. Orsaeva, A. V. Shapovalov, “Modelirovanie termodinamicheskikh i mikrofizicheskikh protsessov v konvektivnykh oblakakh”, Mezhvedomstvennyi sbornik «Informatsionnye sistemy i tekhnologii», v. 1, Nalchik, 2000, 10–17 pp.
[6] N. V. Krasnogorskaya, “Vliyanie elektricheskikh sil na koagulyatsiyu chastits sravnimykh razmerov”, IAN SSSR. FAO, 1 (1965), 339–345
[7] L. M. Levin, “Elektricheskaya koagulyatsiya oblachnykh kapel”, Trudy Elbrusskoi vysokogornoi ekspeditsii, 2 (1961), 5–42
[8] I. P. Mazin, Shmeter S. M. Oblaka, Stroenie i fizika obrazovaniya, Gidrometeoizdat, L., 1983 | MR
[9] G. I. Marchuk, Metody vychislitelnoi matematiki, Nauka, M., 1977 | MR
[10] B. Dzh. Meison, Fizika oblakov, Gidrometeoizdat, L., 1961
[11] V. N. Morozov, “Rol ledyanoi fazy v generatsii elektricheskikh zaryadov i polei v elektroaktivnoi zone grozovogo oblaka”, VI rossiiskaya konferentsiya po atmosfernomu elektrichestvu \date 1-7 oktyabrya 2007 g., Nizhnii Novgorod, 120–121 | Zbl
[12] V. I. Khvorostyanov, “Trekhmernaya mezomasshtabnaya model evolyutsii oblachnosti s detalnym uchetom mikrofizicheskikh, radiatsionnykh protsessov, orografii i ee primenenie dlya modelirovaniya peristykh oblakov”, Izvestiya AN. FAO, 30:4 (1994), 543–557
[13] A. V. Shapovalov, “Modelirovanie evolyutsii konvektivnykh oblakov s uchetom elektricheskikh protsessov”, Matematicheskoe modelirovanie, 15:4 (2003), 65–76 | Zbl
[14] J. P. Chen, D. Lamb, “Simulation of Cloud Microphysical and Chemical Processes Using a Multicomponent Framework. Part I. Description of the Microphysical Model”, J. Atmos. Sci., 51 (1994), 2613–2630 | 2.0.CO;2 class='badge bg-secondary rounded-pill ref-badge extid-badge'>DOI
[15] H. Helsdon John, Jr. D. Farley Richard, “A numerical modeling Study of a Montana Thunderstorm, Model Results Versus Observations Involving Electrical Aspects”, J. Geoph. Res., 92 (1987), 5661–5676 | DOI
[16] F. Rawlins, “A numerical study of thunderstorm electrification using a three dimentional model incorporating the ice phase”, Quart.Jour. of the Royal Met. Society, 108 (1982), 779–801 | DOI
[17] C. L. Ziegler, P. S. Ray, D. R. MacGorman, “Relation of Kinematics Microphysics and Electrification in an Isolated Mountain Thunderstorm”, J. Atmos. Sci., 43:19 (1986), 2098–2114 | 2.0.CO;2 class='badge bg-secondary rounded-pill ref-badge extid-badge'>DOI