According to the General Plan of the city's perspective development, it is planned to develop the territories of the irrigation fields and the adjoining dam. The article details the engineering tasks of erecting the foundation-basement construction of underground structures considering the geological and hydrogeological conditions of the low-lying area of the Odessa region. Features of occurrence and genesis of low-lying part sites have been elaborated. The paper also elucidates the methods of orientation employed and water lowering during the erection of underground structures.
Technological order of work execution for reliable and effective structural scheme of underground structures in water-saturated soils is proposed.
A device for vertical waterproofing of external walls and horizontal waterproofing of the floor of an underground structure has been developed.
Bondar, S., Chabanova, O. (2013). Innovative waste water treatment methods for food industry. Food Science and Technology 4(25), 94-98 (in Russian).
Abelev, M.Y., Averin, I.V., Chunyuk, D.Y. et al. (2018) Study of the Processes of Consolidation of a Thick Mass of Water-Saturated Clay Soils when Erecting Unique Structures. Soil Mech Found Eng 55, 333-339. https://doi.org/10.1007/s11204-018-9545-x
https://doi.org/10.1007/s11204-018-9545-x
Satana, S., Ceylan, A.R., Sert, A. (2017) The Turkish experience in consolidation of irrigated land: Productivity and efficiency implications. World bank conference on land and poverty. Washington DC, March 20-24.
Sinyakov, L., Garmanov, G. and Melentev, A. (2016) Strengthening and Stabilization of the Weak Water Saturated Soils Using Stone Columns. MATEC Web of Conferences, 73, 01003. https://doi.org/10.1051/matecconf/20167301003
https://doi.org/10.1051/matecconf/20167301003
Panfilova, M., Zubrev, N., Efremova, S. et al. (2020) Strengthening of water-saturated soils of the bases of underground structures with composite solutions modified by industrial waste, boehmite. Case Studies in Construction Materials (Volume 12, June 2020, e00323). https://doi.org/10.1016/j.cscm.2019.e00323
https://doi.org/10.1016/j.cscm.2019.e00323
Kislyakov, A., Grakhov, V., Kislyakova, Yu. (2014) Application of vertical drains when compacting low water-saturated soil. Intelligent systems in production 1 (23), 124-126. (in Russian).
Chesheiko, A., Repyakh, A. (2017) Construction in weak water-saturated soils. Working Paper. pp. 54-57. Retrieved from https://www.openrepository.ru/article?id=72764 (in Russian).
Kobulianov, I. (2016) How old is Odessa 6 hundred or 6 thousand? Retrieved from http://co6op.narod.ru/txt/odessa/articles/odessa.html (in Russian)
Kliorina, G. (2002) Drainage in engineering preparation and improvement of the territory of buildings - Moscow, 2002, 144p. (in Russian).
Cherkasova, L. (2018) Compaction of water-saturated soil by surface vacuuming. MATEC Web of Conferences 196, 03006. https://doi.org/10.1051/matecconf/201819603006
https://doi.org/10.1051/matecconf/201819603006
Skachek, A.M., Freidlin, M.P. (2015) Priority tasks, ecological, recreational, urban and transportation aspects of rehabilitation and development zones of Hadzhibeysky estuary. Materials of the all-Ukrainian scientific-practical conference "Natural resource potential of Kuyalnytsky and Hadzhibeysky estuaries, inter-estuary territories: current state, development prospects" UKRMEPA, Odesa, 103-106 (in Russian).
DBN B.1.1-5-2000 Buildings and Structures in Fragranted Territories and Sedimenting Soils. Part 2. Kyiv, 2000 (in Ukrainian)
DBN B.2.1-10-2009 Bases and Foundations of Buildings. Basic design provisions. Kyiv, 2009 (in Ukrainian)
DSTU-N B B.1.1-40: 2016 Guidelines for the design of buildings and structures on weak soils. Kyiv, 2017 (in Ukrainian)