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Melnikov N. N., Amosov P. V., Klimin S. G., Novozhilova N. V.
Estimation of thawing cryolithic area with numerical modeling in 3D geometry while exploiting underground small nuclear power plant
DOI: 10.21443/1560-9278-2016-1/1-28-34
Abstract. The paper presents results on 3D numerical calculation of a thermal task related to assessing a thawing area when placing modules with reactor and steam-turbine facility of a small nuclear power plant in thickness of permafrost rocks. The paper discusses influence of the coefficient of thermal conductivity for large-scaled underground excavations lining and cryolithic area porosity on thawing depth and front movement velocity under different spatial directions
Keywords: large-scaled underground modules, cryolithic area, porosity, coefficient of thermal conductivity, front and depth of thawing
Printed reference: Estimation of thawing cryolithic area with numerical modeling in 3D geometry while exploiting underground small nuclear power plant / N. Melnikov, P. Amosov, S. Klimin, N. Novozhilova // Vestnik of MSTU. 2016. V. 19, No 1. P. 28-34.
Electronic reference: Estimation of thawing cryolithic area with numerical modeling in 3D geometry while exploiting underground small nuclear power plant / N. Melnikov, P. Amosov, S. Klimin, N. Novozhilova // Vestnik of MSTU. 2016. V. 19, No 1. P. 28-34. URL: http://vestnik.mstu.edu.ru/v19_1_1n64/4_Melnikov_28_34.pdf.
