HYDRAULICS. ENGINEERING HYDROLOGY. HYDRAULIC ENGINEERING

METHODOLOGY OF IDENTIFICATION OF THE DRAINAGE NORM FOR AREASEXPOSED TO FLOODING

Vestnik MGSU 8/2013
  • Voronov Yuriy Viktorovich - Moscow State University of Civil Engineering (MGSU) Doctor of Technical Sciences, Professor, Department of Water Discharge and Water Ecology, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Shirkova Tat'yana Nikolaevna - Moscow State University of Civil Engineering (MGSU) postgraduate student, Department of Water Discharge and Water Ecology, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 131-136

The authors argue that drainage norms depending on the functional use of territories must be considered as the first step in the design of flood protection systems. Further, calculation of the drainage norm should be performed based on the extent of the flooding vulnerability of areas. Any designer should identify the parameters of hazards that may cause harmful effects, including the groundwater level, the moisture content of soil, contamination of the groundwater and soil, and the change of soil properties by soaking and draining in order to characterize the hazard of flooding processes in urban and industrial areas. The classification of factors affecting the vulnerability of urban and industrial areas is based on the four features, or indicators of vulnerability, including urban, geotechnical, environmental, and operational indicators. An assessment of harmful effects of flooding should be made following the identification of the flooding hazard degree and the vulnerability of the area to flooding. The research findings contain the threshold of the geological safety and the acceptable depth of the groundwater. Any design of engineering protection actions should take account of the drainage norm within the boundaries based on the acceptable groundwater level in terms of the geological safety threshold.

DOI: 10.22227/1997-0935.2013.8.131-136

References
  1. Kuranov N.P., Kuranov P.N. Normativnye trebovaniya k sistemam inzhenernoy zashchity ot podtopleniya [Regulatory Requirements Applicable to Systems of Engineering Protection from Flooding]. Vodosnabzhenie i sanitarnaya tehnika [Water supply and sanitery equipment]. 2009, no.1, pp. 59—65.
  2. PACE official site. Available at: http://www.pacewater.com. Date of access: 28.05.2013.
  3. NDS official site. Available at: http://www.ndspro.com. Date of access: 28.05.2013.
  4. ADS official site. Available at: http://www.americandrainagesystems.com. Date of access: 28.05.2013.
  5. Drainage Systems Dublin official site. Available at: http://www.drainagesystems.ie. Date of access: 28.05.2013.
  6. Metodika otsenki veroyatnostnogo ushcherba ot vrednogo vozdeystviya vod i otsenki effektivnosti osushchestvleniya preventivnykh vodokhozyaystvennykh meropriyatiy [Methodology of Evaluation of Probable Damages Caused by the Harmful Influence of Water and Evaluation of Efficiency of Preventive Water Management Activities]. Ìoscow, VIEMS Publ., 2005.
  7. Kuranov N.P. Metodicheskie rekomendatsii po otsenke urovney bezopasnosti, riska i ushcherba ot podtopleniy gradopromyshlennykh territoriy [Methodological Recommendations on Evaluation of Safety, Risk and Damage Levels in Respect of Flooding of Urban and Industrial Territories]. Moscow, ZAO “DAR/VODGEO” Publ., 2010, 58 p.
  8. Dzektser E.S., Pyrchenko V.A. Tekhnologiya obespecheniya ustoychivogo razvitiya urbanizirovannykh territoriy v usloviyakh vozdeystviya prirodnykh opasnostey [Technology for Sustainable Development of Urbanized Territories Exposed to Natural Hazards]. Moscow, ZAO “DAR/VODGEO” Publ., 2004, 166 p.
  9. Kuz'min V.V., Timofeeva E.A., Chunosov D.V. Otsenka riska negativnykh vozdeystviy pri podtoplenii urbanizirovannykh territoriy [Evaluation of the Risk of Negative Impacts of the Flooding Exposure in Respect of Urbanized Territories]. Vodosnabzhenie i sanitarnaya tekhnika [Water Supply and Sanitary Engineering]. Moscow, VST Publ., 2008, no. 6, pp. 44—49.
  10. Osipov V.I., Shoygu S.K., editors. Prirodnye opasnosti Rossii. Tom 3. Ekzogennye geologicheskie opasnosti [Natural Hazards in Russia. Volume 3. Exogenous Geological Dangers]. Ìoscow, KRUK Publ., 2003.
  11. Ragozin A.L., editor. Prirodnye opasnosti Rossii. Tom 6. Otsenka i upravlenie prirodnymi riskami [Natural Hazards in Russia. Volume 6. Evaluation and Management of Natural Risks]. Ìoscow, KRUK Publ., 2003.

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DEVELOPMENT OF THE SYSTEM OF ENGINEERING PROTECTION OF TERRITORIES AND STRUCTURES FROM IMPOUNDING

Vestnik MGSU 2/2012
  • Voronov Jurij Viktorovich - Moscow State University of Civil Engineering (MSUCE) Doctor of Technical Sciences, Professor, Department of Sewerage and Aquatic Ecology 8 (499) 183-27-65, Moscow State University of Civil Engineering (MSUCE), 26 Jaroslavskoe shosse, Moscow, 129337, Russia; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Shirkova Tat'jana Nikolaevna - Moscow State University of Civil Engineering (MSUCE) postgraduate student, Department of Sewerage and Water Ecology 8 (495) 789-77-04, Moscow State University of Civil Engineering (MSUCE), 26 Jaroslavskoe shosse, Moscow, 129337, Russia; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 121 - 124

The article covers the development of the system of engineering protection of territories and structures from impounding. The emphasis is made on the engineering protection associated with the risk of negative impacts produced on structures and the adjacent territory by subterranean waters. The territory of Imeretinskaya Lowland, Adler District, Sochi, designated for the accommodation of Winter Olympic Games in 2014, served as an example of the technology underlying the system of engineering protection. Artificial elevation of the ground level by upfilling or inwashing of soil, having high filtration properties, and construction of drainage systems are planned to assure the admissible impounding risk level. The above actions will make it possible to assure the acceptable depth of the underground waters in the territory.

DOI: 10.22227/1997-0935.2012.2.121 - 124

References
  1. SNiP 22-02—2003. Inzhenernaja zaschita territorij, zdanij i sooruzhenij ot opasnyh geologicheskih processov. Osnovnye polozhenija [Construction Norms and Rules 22-02—2003. Engineering Protection of Territories, Buildings and Structures from Hazardous Geological Processes. Basic Provisions]. Moscow, Rosstroj, 2004.
  2. Rozanov N.N., Kuranov N.P. Metodicheskie rekomendacii po ocenke riska avarij gidrotehnicheskih sooruzhenij vodohranilisch i nakopitelej promyshlennyh othodov [Methodological Recommendations concerning the Assessment of the Risk of Accidents at Hydraulic Engineering Structures of Water Storage Bodes and Industrial Waste Tanks]. Moscow, DAR/VODGEO, 2002.
  3. Kuranov N.P. Metodicheskie rekomendacii po ocenke riska i uscherba pri podtoplenii territorij [Methodological Recommendations concerning the Assessment of Risk and Damage Caused by the Impoundment of Territories]. Moscow, DAR\VODGEO, 2001.

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