To determine zones of potential flooding and damages due to inundation, it is necessary to assign an emergency scenario and simulate the emergency.
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V. P. Varnevskii and D. B. Radkevich, Government Inspection of the Safety of Water-Development Works at Power Plants. Safety of Power-Generating Structures [in Russian], Issue 1, Izd. NIIÉS, Moscow (1998).
RD 153-34.2-002.01. Temporary Procedure for Evaluation of Loss and Possible Consequences of the Failure of Water-DevelopmentWorks [in Russian], Issue 1, Izd. NIIÉS, Moscow (2001).
Procedure for Determination of Amount of Damage Causative to Life and Health on the Physical Side, and Property on the Physical and Juridical Sides As a Result of Failures at Water-Development Works Owned by Establishments of the Fuel-Power Complex (Emercom of Russia and Ministry of Power of the Russian Federation) [in Russian], Izd. NIIÉS, Moscow (2004).
Sequence of Determination of Amount of Damage Causative to Life and Health on the Physical Side and Property on the Physical and Jurisdictional Sides As Result of Failure of Water-Development Works (Emercom of Russia, Ministry of Power, Ministry of Natural Resources of the Russian Federation, Ministry of Transportation of the Russian Federation, State Committee of the Council of Ministers for Supervision of Industrial Safety and Mining Inspection of the Russian Federation), 3 June 2002 [in Russian].
B. L. Istorik, A. M. Prudovskii, and S. Ya. Shkol’nikov, “Hydraulic aspects of the prediction of breach conditions on the thrust front of hydroprojects,” in: Safety of Power-Generating Structures [in Russian], Izd. NIIÉS, Moscow (1998).
E. I. Debol’skaya, Flow Dynamics Beneath an Ice Cover. Author‘s Abstract of Doctoral Thesis [in Russian], Izd. IVP RAN (2001).
L. L. Kvaratskheliya, Theoretical and Model Studies of Breach-Wave Transformation in the Tail Races of Hydroprojects. Author‘s Abstract of Candidate‘s Thesis [in Russian], Izd. GruzNIIÉGS, Tbilisi (1984).
V. M. Lyatkher and A. M. Prudovskii, Hydraulic Modeling [in Russian], Énergiya, Moscow (1984).
Dam Breach Flood Analyses. Bulletin of Subcommittee 5 of ICOLD Committee on Hydraulics for Dams (1995).
A. M. Prudovskii, “Formation of the opening during the beach of an earthen dam,” in: Safety of Water-Development Works [in Russian], Issues 2 – 3, Izd. NIIÉS, Moscow (1998).
B. L. Istorik, Solution of Problems Involving the Formation and Spread of Breach Waves Using Numerical Methods. Author‘s Abstract of Doctoral Thesis [in Russian], Izd. VNIIVODGEO, Moscow (1986).
B. L. Militeev, Use of Numerical Methods to Solve Problems Involving the Formation and Spread of Breach Waves. Author‘s Abstract of Doctoral Thesis [in Russian], Izd. MISI, Moscow (1983).
V. M. Lyatkher, A. N. Militeev, and S. Ya. Shkol’nikov, “Analysis of the shoreline breaking of tsunami waves,” in: Investigation of Open-Ocean Tsunami Waves [in Russian], Nauka, Mocow (1978).
S. Ya. Shkol’nikov, “Problem of the construction of conservative finite-difference schemes for differential equations of nonsteady flow in a non-prismatic channel,” Gidrotekh. Stroit., No. 5 (1998).
A. A. Li and S. Ya. Shkol’nikov, “Experience with numerical modeling of hydrodynamic failures,” Vodnoe Khoz. Rossii, 6(6) (2004).
I. A. Sherenkov, Applied Plane Problems of Open-Flow Hydraulics [in Russian], Énergiya, Moscow (1978).
S. K. Godunov, and V. S. Ryaben’kii, Difference Schemes [in Russian], Nauka, Moscow (1976).
A. N. Militeev and M. S. Sladkevich, “Difference scheme for solutions of plane shallow-water equations,” in: Manuscripts Deposited in the VINITI [in Russian], Issue 3, Moscow (1983).
S. Ya. Shkol’nikov, Testing of Numerical Methods of Solving Hydraulic Problems [in Russian].
J. J. Stoker, Waves in Water [Russian translation], Inostrannaya Literatura, Moscow (1959).
“Practice of declaring the safety of power-generating entities,” in: Safety of Power-Generating Structures [in Russian], Issue 15, Izd. NIIÉS, Moscow (2005).
A. V. Troitskii and S. Ya. Shkol’nikov, “Experience with use of the procedure for combined evaluation of losses sustained during hydrodynamic failures at water-development works,” in: Safety of Power-Generating Structures [in Russian], Issue 15, Izd. NIIÉS, Moscow (2005).
E. P. Bulanov, G. L. Mazhbits, and S. Ya. Shkol’nikov, “Influence exerted by computed characteristics of natural floods on evaluation of losses due to hydrodynamic failures,” in: Safety of Power-Generating Structures [in Russian], Issue 11, Izd. NIIÉS, Moscow (2003).
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Translated from Gidrotekhnicheskoe Stroitel‘stvo, No. 10, pp. 48–55, October 2008.
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Shkol’nikov, S.Y., Sekisova, I.A. Mathematical modeling of hydrodynamic failures and evaluation of losses sustained. Power Technol Eng 42, 331–338 (2008). https://doi.org/10.1007/s10749-009-0060-0
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DOI: https://doi.org/10.1007/s10749-009-0060-0