Amathematical model is developed for the generation and transport of condensed moisture in a stepped spillway. Estimates were made for solid and liquid precipitation at Boguchanskaya HPP facilities for winter operation of spillways Nos. 1 and 2.
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V. N. Koterov, B. V. Arkhipov, V. V. Belikov, V. V. Solbakov, and V. E. Fedosov, “Numerical modeling of the formation and transport of condensed moisture in the lower pool of a hydroproject during the operation of spring-board spillways,” Gidrotekh. Stroit., No. 7, 17 – 27 (2007).
V. N. Koterov, B. V. Arkhipov, V. V. Belikov, V. V. Solbakov, and V. E. Fedosov, “Numerical modeling of condensed moisture transport in the lower pool of the Kapanda hydroproject, with due regard for the effects of the HPP guide wall and air intakes,” Bezopasn. Énerget. Sooruzh., No. 16 (2007).
V. N. Koterov, B. V. Arkhipov, V. V. Belikov, and V. V. Solbakov, “Formation and transport of condensed moisture in the lower pool of a hydroproject,” Mat. Model., 20(5), 78 – 92 (2008).
V. V. Belikov and V. N. Koterov, “Investigation and modeling of ice-thermal processes during winter operation of the spillway at the Sayano-Shushenskaya HPP,” in: Proc. of the III All-Russian Conf. “Ice and Thermal Processes on Water Bodies of Russia,” June 6 – 11, 2011, Onega, Arkhangelsk Oblast [in Russian], pp. 24 – 82.
V. N. Koterov and V. V. Belikov, “Investigation and modeling of thermal air convection and transport of local precipitation during winter operation of the service spillway at the Sayano-Shushenskaya HPP,” Gidrotekh. Stroit., No. 4, 2 – 9 (2012).
V. V. Belikov and V. N. Koterov, “Numerical modeling of transport of condensed moisture generated by No. 1 spillway operation at the Boguchanskaya reservoir during winter of 2012,” Gidrotekh. Stroit., No. 5, (2014).
H. Chanson and G. Carosi, “Turbulence characterisation of high-velocity free-surface flows,” in: Proc. 6th International Conference on Multiphase Flow, ICMF 2007, Leipzig, Germany, July 9 – 13, 2007.
H. Chanson, “Very strong free-surface aeration in turbulent flows: entrainment mechanisms and air-water flow structure at the “pseudo” free surface,” in: Word Scientific, Advances in Coastal and Ocean Engineering Series. Vol. 8, Singapore, pp. 65 – 98.
G. A. Sudol’skiy, “Experimental hydraulic validation of the structural elements of the Boguchanskaya HPP supplemental spillway No. 2, which has a stepped water flow surface,” in: Proc. of the 6th Sci.-Res. Conf. “Hydropower. New developments and technologies,” St. Petersburg, October 27 – 29, 2011 [in Russian].
Yu. S. Sedunov et al. (eds.), The Atmosphere. A handbook (reference data and models ) [in Russian], Gidrometeoizdat, Leningrad (1991).
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Translated from Gidrotekhnicheskoe Stroitelstvo, No. 6, June 2015, pp. 40 – 51.
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Belikov, V.V., Koterov, V.N. Predicting the Influence of a Water-Ice Cloud Behind Boguchanskaya HPP Spillways Nos. 1 and 2 on Hydroproject Facilities in Winter Under Emergency Operating Conditions. Power Technol Eng 49, 258–268 (2015). https://doi.org/10.1007/s10749-015-0611-5
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DOI: https://doi.org/10.1007/s10749-015-0611-5