Conclusions
Further development of investigations of the hydrological, ice, and thermal regimes of HESs and PSSs will enable a wider check of design assumptions, use of the method of analogy, and determination of the parameters of the hydrological, ice, and thermal regimes with a greater accuracy, which will improve the completeness and reliability of hydrological substàn tiation of designs.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Literature cited
Ya. L. Gotlib, V. M. Zhidikh, and N. N. Sokol'nikov, Thermal Regime of Hydroelectric Station Reservoirs [in Russian], Gidrometeoizdat, Leningrad (1976).
Ya. L. Gotlib, R. V. Donchenko, A. I. Pekhovich, and I. N. Sokolov, Ice in Reservoirs and Lower Pools of Hydroelectric Stations [in Russian], Gidrometeoizdat, Leningrad (1983).
S. N. Nazarenko, T. E. Kozhevnikova, and L. I. Sulimova, “Experience in predicting elements of the ice and thermal regimes of lower pools of hydroelectric stations,” Gidrotekh. Stroit., No. 9 (1980).
Ya. L. Gotlib, “Engineering forecast of the ice and thermal regions of the lower pool of hydroelectric stations,” Tr. Gidroproekta, No. 76 (1981).
S. M. Shcherman, “The ice and thermal regimes of rivers of high mountains of the Pamir and its consideration when designing hydroelectric stations,” Tr. Gidroproekta, No. 106 (1985).
Ya. L. Gotlib, B. F. Balagurov, M. V. Gorina, et al., “Passage of ice through bottom outlets of a concrete dam during construction of the Boguchany hydroelectric station,” Tr. Gidroproekta, No. 103 (1985).
Ya. L. Gotlib, “Characteristics of the hydrology of Siberian rivers according to the experience of the design and construction of hydroelectric stations,” Gidrotekh. Stroit. No. 2 (1984).
Ya. L. Gotlib, M. V. Gorina, and A. I. Khudyakova, “Change in the ice and thermal regimes of lower pools under conditions of streamflow regulation by hydroelectric stations,” Tr. Gidroproekta, No. 82 (1982).
S. N. Nazarenko and N. B. Sakharova, “Change in the ice and thermal regions of the Vilyui River in the lower pool of the Vilyui I-II hydroelectric stations,” Gidrotekh. Stroit., No. 8 (1982).
M. L. Monosov, “Effect of the redistribution of the runoff of the Enisei River on the hydrological regime of its lower course in connection with the construction of power complex,” Tr. Gidroproekta, No. 110 (1985).
B. Ya. Kagan, “Calculation of the maximum runoff of rivers with a multiple flood regime, Tr. Gidroproekta, No. 77 (1971).
B. Ya. Kagan, “Calculation of maximum discharges in the case of a multiple flood regime, Meteorol. Gidrol., No. 5 (1982).
S. M. Shcherman, “Characteristics of the ice and thermal regimes of the Gunt River in connection with the design of the Pamir hydroelectric station,” Gidrotekh. Stroit., No. 3 (1985).
Ya. L. Gotlib, “Investigation of the thermal characteristics of water bodies of pumpedstorage stations,” Tr. Gidroproekta (1979).
I. N. Sokolov, Ya. L. Gotlib, P. G. Pik, and M. N. Vubanik, “On-site investigations of the ice and thermal regimes of reservoirs of the Kiev pumped-storage station,” Izv. VNIIG im. B. E. Vedeneeva, No. 153 (1981).
V. K. Vonokov, “Hydrometeorlogical conditions of the formation and breakup of multilayered ice on the reservoir slopes of the Kiev pumped-storage station,” Gidrotekh. Stroit., No. 2 (1981).
V. M. Kondrat'ev, M. N. Rubanik, V. F. Kanarskii, and P. D. Gavrish, “Dynamics of the formation of an ice prism on reservoir slopes of pumped-storage stations,” Gidrotekh. Stroit., No. 3 (1982).
Additional information
Translated from Gidrotekhnicheskoe Stroitel'stvo, No. 2, pp. 36–39, February, 1987.
Rights and permissions
About this article
Cite this article
Gotlib, Y.L. Characteristics of the ice and thermal regimes of hydroelectric stations and pumped-storage stations. Hydrotechnical Construction 21, 91–95 (1987). https://doi.org/10.1007/BF01424911
Issue Date:
DOI: https://doi.org/10.1007/BF01424911