Geodesic
Ice flow modeling in mountain glaciers by finite element method
Matematičeskoe modelirovanie, Tome 23 (2011) no. 2, pp. 118-124.

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The numerical 2D model of ice flow in mountain glaciers was developed. Testing of accuracy of the solution was done. There were simulated the ice flow in Akademiya Nauk and Gregoriev ice caps at different scenarios of climate change.
Keywords: finite element method, numerical modeling, ice flow.
Mots-clés : glaciers 
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G. E. Krasnikov; O. V. Nagornov. Ice flow modeling in mountain glaciers by finite element method. Matematičeskoe modelirovanie, Tome 23 (2011) no. 2, pp. 118-124. http://geodesic.mathdoc.fr/item/MM_2011_23_2_a8/

[1] Hindmarsh R. C. A., “A numerical comparison of approximations to the Stokes equations used in ice sheet and glacier modeling”, J. Geophys. Res., 109 (2004), F01012 | DOI

[2] MacAyeal D. R., “Large-scale ice flow over a viscous basal sediment: theory and application to ice stream B, Antarctica”, J. Geophys. Res., 94:B4 (1989), 4071–4088 | DOI

[3] Pattyn F., “Ice-sheet modeling at different spatial resolutions: focus on the grounding zone”, Annals of Glaciology, 31 (2000), 211–216 | DOI

[4] Konovalov Y. V., Nagornov O. V., “The Gregoriev Ice Cap evolution according to the 2-D ice flowline model for various climatic scenarios in the future”, The Cryosphere Discuss, 3 (2009), 77–115 | DOI

[5] Nagornov O. V., Konovalov Yu. V., “Prognoz evolyutsii lednika Grigoreva (Tyan-Shan)”, MGI, 98, 2005, 183–193

[6] Patterson U. S. B., Fizika lednikov, Perevod s angliiskogo, Mir, M., 1997, 472 pp.

[7] Pattyn F. and others, “Benchmark experiments for higher-order and full Stokes ice sheet models (ISMIP-HOM)”, The Cryosphere Discussions, 2 (2008), 111–151 | DOI

[8] V. M. Kotlyakov (red.), Atlas snezhno-ledovykh resursov mira, v. 1, RAN, M., 1997, 342 pp.