The problem of protecting lands from flooding caused by flash floods is analyzed. It is suggested to reduce the risk of floods by a system of hydro complexes distributed on the drainage basin.
Similar content being viewed by others
References
Statista — Das Statistik-Portal. Unversicherte Schadenssummen bedeutender Hochwasser-katastrophen in Mitteleuropa seit 1993 (in Millionen Euro). Available at: https://de.statista.com/statistik/daten/studie/2459/umfrage/unversicherte-schaedenbedeutender-flutkatastrophen-in-europa (Accessed 10.11.2016).
Nations Office for Disaster Risk Reduction. The human cost of weather-related disasters 1995 – 2015 (2015).
Climate Service Centre Report No. 12. The European Flood Directive and Opportunities Offered by Land Use Planning, Hamburg, Germany. Available at http.//www.climate-servecentre.de/imperi/md/content/cse/ces-report12.pdf (Accessed 10.11.2016).
L. Alferi, L. Feye, P. Salamon, J. Thielen, A. Bianchi, F. Dotto, and P. Burek, “Modeling the cosio-economic impact of river floods in Europe,” Nat. Hazards Earth Syst. Sci., 16, 1401 – 1411 (2016).
A. K. Jha, R. Bloch, and J. Lamond, Cities and flooding. A guide to integrated urban flood risk management for the 21st century, World Bank Publications, Washington (2012).
D. Kazang and F. Kaspar, “Change of regional extremes,” in: Global Change: Enough water for all? Wissenschafiliche Auswertungen, Hamur (2007). Available at http://www.klimawarmsignale-uni-hamburg.de/warnsignal-klima-wasser (Accessed 10.11.2016).
A. B. Avakyan and M. N. Istomina, “Floods as a global mutiple aspect problem,” Vest. RAN, 72(12), 1059 – 1068 (2002).
Richtlinie 2007/60/EG des Europäischen Parlaments und des Rates vom 23. Oktober 2000 über die Bewertung und das Management von Hochwasserrisiken.
Richtlinie 2000/60/Eg des Europäischen Parlanentes und des Rates von 23. Oktober 2000 zur Schaffung cines Ordnungsrahmens für Maßnahmen der Gemeinschaft im Bereich der Wasserpolitik.
Second Assessment Report of the Russian Federal Service for Hydrometeorology and Environmental Monitoring Concerning Climates Changes in the Territory of the Russian Federation as a Integral Part of the Main Volume, Technical Resume, and General Resume [in Russian], Rosgidromet, Moscow (2014).
On the State of Protection of the Population of the Russian Federation from Emergency Situations of a Natural and Technogenic Character in 2013 [in Russian], MChS Rossii – FGBU VNII GOChS(Ts), Moscow (2014).
River and Lakes of the World: Encyclopedia [in Russian], Éntsiklopediya (2012).
B. Lange and G. Metz, “Innovative Bauverffqahrenbeim BQU VON hochwqasserruckhaltecken,” in: 35 Dresdner Wasserbaukollequium 2012 “Staubauwerke-Planen, Baun, Bereiben,” Technishche Universität Dresden – Fakultät Bauingenieurwesen – Institut für Wasserbau und Technusche Hydromechanik (2012), pp. 493 – 502.
M. P. Fedorov and V. I. Maslikov, “Reducing the flood risk in a river basin by flood control by hydro complexes distributed on it,” Izv. RAN Énerget., No. 4, 47 – 52 (2013).
N. Vatin, N Lavorov, and N. Korzhavin, “Hydraulic method and a device of fish protection at water-intake from the mountain rivers,: Appl. Mech. Mater., 641 – 642, 353 – 358 (2014).
R. Hornich, “Die sterirische Stratgie bei Hochwasserruckhaltebecken,” Available at http://www.wasseraktiv.at/resources/files/2012/10/2/32451/17-hornish-21-9-12.pdf (Accessed 10.11.2016).
DIN 19700-12:2004–07. Stauanlagen — Teil 12, Hochwasserruckhaltebecken.
D. Kurtener and VA. Badenko, “A GIS methodological framework based on fuzzy sets theory for land use management,” J. Braz. Comp. Soc., 6(3), 25 – 32 (2000).
V. V. Elistratov, V. I. Maslikov, and F. V. Fyong, “Control of the runoff of a river basin by a system of hydro complexes distributed on the river basin,” in: M. I. Bal’zannikov (ed.), Collection of Works of the International Scientific and Technical Conference “Hydraulic Engineering and Hydropower: Problems of Construction, Operation, Ecology, and Training of Specialists” [in Russian], Samara (2002), pp. 63 – 68.
V. L. Badenko, N. V. Badenko, T. S. I. Ivanov, V. A. Oleshko, and M. V. Petroshenko, “Results of estimating the hydropower potential of Russian rivers in the context of subjects of the Russian Federation,” Izv. VNIIG im. B. V. Vedeneeva, 26, 57 – 69 (2015).
M. Fedorov, V. Badenko, Vl Maslikov, and A. Chusov, “Distributed system f dams for flood protection on urban land to ensure sustainable development,” MATEC Web of Conf., 73, 01002 (2016).
V. Badenko, N. Badenko, A. Nikonorov, D. Terleev, J. Lednova, and V. Maslikov, “Ecological aspect of dam design for flood regulation and sustainable urban development,” MATEC Web of Conf., 73, 03003 (2016).
M. Fedorov, V. Badenko, V Masilov, and A. Chusov, “Site selection for flood detention basins with minimum environmental impact,” Procedia Eng., No. 165, 1629 – 1636 (2016).
Hydraulic Calculation of Hydraulic Outlet Structures: Handbook [in Russian], Énergoatomiizdat, Moscow (1988).
M. P. Fedorov, V. V. Elistratov, and V. I. Masllikov, “Regulation of floods and river discharges by hydro complexes distributed in its basin,” in: Heads of Reports “Flooding ad other Hazardous Hydrological Events: Assessment, Prediction, and Moderation of Negative Consequences” (VI All-Russin Hydrological Congress ) [in Russian], St. Petersburg (2004), pp. 86 – 87.
M. P. Fedorov, A. G. Bogolyubov, ad V. I. Maslikov, “Ecological safety of electric power stations with renewable energy sources,” Gidrotekh. Stroit., No. 6, 32 – 35 (1995).
Author information
Authors and Affiliations
Corresponding author
Additional information
Translated from Gidrotekhnicheskoe Stroitel’stvo, No. 5, May 2017, pp. 2 – 7.
Rights and permissions
About this article
Cite this article
Fedorov, M.P., Maslikov, V.I., Badenko, V.L. et al. Reducing the Risk of Flooding by Using Hydro Complexes Distributed on the Drainage Basin. Power Technol Eng 51, 365–370 (2017). https://doi.org/10.1007/s10749-017-0840-x
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10749-017-0840-x