Geodesic
Mathematical modeling of atmospheric processes at North Ossetia Carmadon's valley
Vladikavkazskij matematičeskij žurnal, Tome 12 (2010) no. 3, pp. 41-46 Cet article a éte moissonné depuis la source Math-Net.Ru

Voir la notice de l'article

Diurnal behaviors of Carmadon's valley aerodynamics with different directions of geostrophic wind are investigated by means of two-dimentional mathematical model. The development of vortex field in valley found to be depending on this direction. 
@article{VMJ_2010_12_3_a3,
     author = {E. S. Kamenetsky and A. A. Radionoff},
     title = {Mathematical modeling of atmospheric processes at {North} {Ossetia} {Carmadon's} valley},
     journal = {Vladikavkazskij matemati\v{c}eskij \v{z}urnal},
     pages = {41--46},
     year = {2010},
     volume = {12},
     number = {3},
     language = {ru},
     url = {http://geodesic.mathdoc.fr/item/VMJ_2010_12_3_a3/}
}
TY  - JOUR
AU  - E. S. Kamenetsky
AU  - A. A. Radionoff
TI  - Mathematical modeling of atmospheric processes at North Ossetia Carmadon's valley
JO  - Vladikavkazskij matematičeskij žurnal
PY  - 2010
SP  - 41
EP  - 46
VL  - 12
IS  - 3
UR  - http://geodesic.mathdoc.fr/item/VMJ_2010_12_3_a3/
LA  - ru
ID  - VMJ_2010_12_3_a3
ER  - 
%0 Journal Article
%A E. S. Kamenetsky
%A A. A. Radionoff
%T Mathematical modeling of atmospheric processes at North Ossetia Carmadon's valley
%J Vladikavkazskij matematičeskij žurnal
%D 2010
%P 41-46
%V 12
%N 3
%U http://geodesic.mathdoc.fr/item/VMJ_2010_12_3_a3/
%G ru
%F VMJ_2010_12_3_a3
E. S. Kamenetsky; A. A. Radionoff. Mathematical modeling of atmospheric processes at North Ossetia Carmadon's valley. Vladikavkazskij matematičeskij žurnal, Tome 12 (2010) no. 3, pp. 41-46. http://geodesic.mathdoc.fr/item/VMJ_2010_12_3_a3/

[1] Shelkovnikov M. S., Mezometeorologicheskie protsessy v gornykh raionakh i ikh vliyanie na polety vozdushnykh sudov, Gidrometeoizdat, L., 1985, 208 pp.

[2] Gallander B. A., “Short range dispersion within a system of regular valleys”, Air pollution modeling and it's application, V NATO Challengers of Modern Society, 10, Plenar press, New York, 1986, 253–265

[3] Barri Rodzher G., Pogoda i klimat v gorakh, Gidrometeoizdat, L., 1984, 311 pp.

[4] Yamada T., Bunker S., “Development of a Nested Grid”, J. Appl. Meteorology, 27:5, Second Moment Turbulence Closure Model and Application to the 1982 ASCOT, Brush Creek Data Simulation (1988), 562–578 | 2.0.CO;2 class='badge bg-secondary rounded-pill ref-badge extid-badge'>DOI

[5] Enger L., Korasin D., Yang X., “A numerical method of boundary-layer dynamics a mountain valley”, Boundary-Layer Meteorology, 66 (1993), 357–394 | DOI

[6] Kamenetsky E. S., Radionoff A. A., “Aerodynamics of mountain valleys with varying cross sections”, Boundary-Layer Meteorology, 91:2 (1999), 191–197 | DOI

[7] Kamenetskii E. S., Radionov A. A., “Rasprostranenie zagryaznyayuschikh veschestv v gornykh uschelyakh”, Vladikavk. mat. zhurn., 5:2 (2003), 24–33 | MR

[8] Rouch P., Vychislitelnaya gidrodinamika, Mir, M., 1980, 616 pp. | Zbl