Engineering-Geological Zoning of the Railway Section by the Method of Probabilistic Assessment

Yu. N. Selezneva, M. R. Yadzinskaya

Abstract


The article describes the special engineering-geological zoning method of the railway territory. Permafrost geocryological conditions of the railway geological section were analyzed. The area is characterized by sporadic discontinuous permafrost. The analysis showed that the process of flooding is widely developed at the stusy area. It will have a great impact on the design and operation of the structure. The method of probabilistic assessment was used for a reasonable zonation of the territory. In result of the study, three taxa were identified that allows defining the flooded, potentially flooded, and non-flooded areas according to their geological structure. Measures for reducing the negative impact of flooding processes are recommended.

Keywords


engineering-geological zoning; classification indicator; probabilistic assessment; flooding; boundary values

References


Bondarik G.K., Pendin V.V. 1982. Metodika kolichestvennoj otsenki inzhenerno-geologicheskikh uslovij i spetsialnogo inzhenerno-geologicheskogo rayonirovaniya [Quantitative assessment methods of engineering-geological conditions and special engineering-geological zoning]. Inzhenernaya geologiya. 4:82–89. (in Russian)

Galkin V.I., Seredin V.V., Krasilnikov P.A., Rastegaev A.V. 2017. Razrabotka mnogomernykh statisticheskikh modeley dlya inzhenerno-geologicheskogo rayonirovaniya territoriy [Development of multidimensional statistical models for engineering-geological zoning of territories]. Geoekologiya. Inzhenernaya geologiya, gidrogeologiya, geokriologiya. 3:58–66. (in Russian)

Golodkovskaya G.A., Lebedeva N.I. 1984. Inzhenerno-geologicheskoe rayonirovanie g. Moskvy [Engineering-geological zoning of Moscow]. Inzhenernaya geologiya. 3:87–102. (in Russian)

Krasilnikov P.A., Konoplev A.V., Hronusov V.V., Barskiy M.G. 2009. Geoinformatsionnoe obespechenie ekonomicheskoy otsenki prirodno-resursnogo potentsiala territoriy Permskogo kraya [Geoinformation support of economic assessment of the natural resource potential of the territories of the Perm region]. Ekonomika regiona. 1:143–151. (in Russian)

Krasilnikov P.A. 2020. Ispolzovanie geoinformacionnykh sistem dlya resheniya prognoznykh inzhenerno-geologicheskikh zadach pri razrabotke mestorozhdeniy poleznykh iskopaemykh [The use of geographic information systems for solving predictive engineering and geological problems in the development of mineral deposits]. Vestnik Permskogo universiteta. Geologiya. 19(1):65–72. (in Russian)

Minc A.A. 1965. Voprosy kompleksnoy ekonomicheskoy otsenki prirodnykh uslovij i estestvennykh resursov v svete zadach sovremennoy geografii [Issues of comprehensive economic evaluation of natural conditions and natural resources as regards to the tasks of modern geography]. Izv. AN SSSR. Ser. Geografiya, n. 2. (in Russian)

Nekrasov M.A., Seredin V.V. 2016. Rayonirovanie territoriy dlya ratsionalnogo razmeshcheniya obektov stroitelstva [The division into districts of territory for the rational distribution of construction objects. Modern technologies in construction] Sovremennye tekhnologii v stroitelstve. Teoriya i praktika. 2:437–440. (in Russian)

Novokreshchennyh A.A., Novoposelenskih L.A., Spasskiy B.A., Naumov V.A., Ilarionov S.A. 2014. Geo-ekologicheskoe rayonirovanie territorii Kachkanarskogo gorno-obogatitel'nogo kombinata [Geo-ecological regionalization of the Kachkanar mining and processing plant territory]. Sovremennye problemy nauki i obrazovaniya, n. 5. (in Russian)

Ozdoeva L.I. 1981. Ispolzovanie integralnogo pokazatelya inzhenerno-geologicheskih usloviy pri krupnomasshtabnom inzhenerno-geologicheskom rayonirovanii gorodskikh territoriy [The use of integral index of engineering geological conditions in large-scale engineering geological zoning of urban areas]. Izv. vuzov. Geologiya i razvedka. 8:70–74. (in Russian)

Seredin V.V., Pushkareva M.V., Leybovich L.O., Bakhareva N.S. 2011. Metodika inzhenerno-geologicheskogo rajonirovaniya na osnove balnoy otsenki klassifikatsionnogo priznaka [Methodology of engineering geological zoning based on score estimation of classification feature]. Inzhenernaya geologiya. 3:20–25. (in Russian)

Seredin V.V., Galkin V.I., Pushkareva M.V., Lejbovich L.O., Smetanin S.N. 2011. Veroyatnostno-statisticheskaya otsenka inzhenerno-geologicheskikh usloviy dlya spetsialnogo rayonirovaniya. Inzhenernaya geologiya. 4:42–47. (in Russian)

Seredin V.V., Yadzinskaya M.R. . 2014. Rayonirovanie territorii koridora kommunikatsiy na Severo-Haryaginskom neftyanom mestorozhdenii [Zoning of the communication corridor in the North Kharyaga oil field]. Sovremennye problemy nauki i obrazovaniya. 5:673. (in Russian)

Tolmachev V.V. 1980. Veroyatnostnyy podkhod pri otsenke ustoychivosti zakarstovannykh territoriy i proektirovanii protivokarstovkh meropriyatiy [Probabilistic approach to assessing the stability of karst territories and designing antikarst measures]. Sovremennye problemy nauki i obrazovaniya. 3:98–107. (in Russian)

Yadzinskaya M.R., Seredin V.V. 2016. Rayonirovanie territoriy stroitelstva promyshlennykh obyektov [Zoning of territories for the construction of industrial facilities]. Sovremennye tekhnologii v stroitelstve. Teoriya i praktika. T. 2, p. 479. (in Russian)




DOI: http://dx.doi.org/10.17072/psu.geol.20.2.142

Refbacks

  • There are currently no refbacks.