Impact of snow cover and air temperature on ground freezing depth and stability in mountain are

Capa

Citar

Texto integral

Resumo

During the construction of debris flow and snow avalanche protecting installation in the mountain regions the problem of fixation and stability of these constructions under the conditions of seasonally or permanently frozen ground arise. For this reason ground freezing depth estimation for winter periods 2015/16-2019/20 was performed on the basis of developed calculating scheme for Elbrus region. The calculating scheme for ground freezing is constructed on the basis of three layer media heat conductivity problem (snow cover, frozen and thawed ground) with phase transition on the boundary of frozen and unfrozen ground. Heat balance equation includes phase transition energy, inflow of heat from unfrozen ground and outflow to frozen ground, snow cover and atmosphere. The heat flux is calculated on basis of Fourier law as a product of heat conductivity and temperature gradient. It is supposed, that temperature changes in each media linearly.

Sobre autores

Denis Frolov

Lomonosov Moscow State University

Autor responsável pela correspondência
Email: denisfrolovm@mail.ru

J

Rússia

Bibliografia

  1. Грунтоведение / Под ред. В.Т. Трофимов. 2005. М.: Изд-во Наука. С. 1024. [Gruntovedenie / Pod red. V.T. Trofimov. 2005. M.: Izd-vo Nauka. P. 1024.]
  2. Кудрявцев В.А. 1954. Температура верхних горизонтов вечномерзлой толщи в пределах СССР. М.: Изд-во АН СССР. С. 183. [Kudryavtsev V.A. 1954. Temperatura verkhnikh gorizontov vechnomerzloi tolshchi v predelakh SSSR. M.: Publishing house USSR Academy of Sciences. P. 183. (In Russian)]
  3. Михеев М.А. 1977. Основы теплопередачи / Под. Ред. М.А. Михеев, И.М. Михеева. М.: Изд-во Энергия С. 344. [Kudryavtsev V.A. 1954. Temperatura verkhnikh gorizontov vechnomerzloi tolshchi v predelakh SSSR. M.: Publishing house USSR Academy of Sciences. P. 183. (In Russian)]
  4. Павлов А.В. 1979. Теплофизика ландшафтов. Новосибирск.: Изд-во Наука. С. 284. [Pavlov A.V. 1979. Teplofizika landshaftov. Novosibirsk.: Izd-vo Nauka. P. 284. (In Russian)]
  5. Фролов Д.М. 2019. Расчёт глубины промерзания грунта под оголённой и покрытой снегом поверхностью на метеостанции МГУ за зимние периоды 2011/12-2017/18 // Динамика окружающей среды и глобальные изменения климата. Т. 10. № 2. C. 86-90. [Frolov D.M. 2019. Raschet glubiny promerzaniya grunta pod ogolennoi i pokrytoi snegom poverkhnost'yu na meteostantsii MGU za zimnie periody 2011/12-2017/18 // Dinamika okruzhayushchei sredy i global'nye izmeneniya klimata. V. 10. N 2. P. 86-90. (In Russian)]
  6. DeGaetano A.T., Cameron M.D., Wilks D.S. 2001. Physical simulation of maximum seasonal soil freezing depth in the United States using routine weather observations // Journal of Applied Meteorology. Vol. 40(3). P. 546–555.
  7. Golubev V.N., Petrushina M.N., Frolov D.M. 2008. Winter regime of temperature and precipitation as a factor of snow-cover distribution and its stratigraphy // Annals of Glaciology Vol. 49, P. 179-186.
  8. Haberkorn A., Wever N., Hoelzle M., Phillips M., Kenner R., Bavay M., Lehning M. 2016. Distributed snow and rock temperature modeling in steep rock walls using Alpine3D // The Cryosphere Discuss. DOI. https://doi.org/10.5194/tc-2016-73

Arquivos suplementares

Arquivos suplementares
Ação
1. JATS XML
Baixar

Declaração de direitos autorais © Frolov D., 2021

Creative Commons License
Este artigo é disponível sob a Licença Creative Commons Atribuição– SemDerivações 4.0 Internacional.

Согласие на обработку персональных данных

 

Используя сайт https://journals.rcsi.science, я (далее – «Пользователь» или «Субъект персональных данных») даю согласие на обработку персональных данных на этом сайте (текст Согласия) и на обработку персональных данных с помощью сервиса «Яндекс.Метрика» (текст Согласия).