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Modeling the wind effect on cooling ponds

  • Science: Theory, Experiment, Practice
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Hydrotechnical Construction Aims and scope

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References

  1. A. N. Solov'ev, “Effect of wind on the hydrodynamic and thermal regime of cooling ponds,” in: Transactions of Joint Conferences on Hydraulic Engineering [in Russian], No. 32 (1967).

  2. V. A. Znamenskii and R. B. Kudryashova, “Modeling drift currents,” Tr. GGI, No. 147 (1968).

  3. A. V. Karaushev, “Principles of modeling wind-driven currents and spread of pollutants in reservoirs,” Tr. GGI, No. 156 (1968).

  4. N. A. Davtyan, “Dimensionless numbers in modeling wind-driven currents and spread of pollutants in inland water bodies,” Tr. GGI, No. 175 (1968).

  5. R. E. Vershik, “Modeling of the wind effect on cooling ponds,” in: Proceedings of Hydraulic Engineering Conferences and Meetings: Hydroaerothermal Studies and Design of Cooling Ponds of Thermal and Nuclear Power Stations [in Russian], VNIIG im. B. E. Vedeneeva (1985).

  6. A. S. Sokolov, “Use of a numerical model for evaluating certain points of the method of hydrothermal modeling of cooling ponds,” Gidrotekh. Stroit., No. 9 (1995).

  7. I. I. Makarov, “An analysis of the coefficient characterizing engineering schemes of using cooling ponds,” Izv. VNIIG im. B. E. Vedeneeva,143 (1980).

  8. I. I. Makarov, A. S. Sokolov, and S. G. Shul'man, “Modeling hydrothermal processes of cooling ponds of thermal and nuclear power stations,” Energoatomizdat, Moscow (1986).

    Google Scholar 

  9. Recommendations of Methods for Hydrothermal Modeling and Calculation of Cooling Ponds: P-026-69 [in Russian], Énergiya, Leningrad (1972).

  10. R. E. Vershik, “Study of wind mixing in stratified water bodies,” in: Transactions of Joint Conferences on Hydraulic Engineering [in Russian], No. 115 (1977).

  11. I. I. Levi, Modeling Hydraulic Phenomena [in Russian], Énergiya, Leningrad (1967).

    Google Scholar 

  12. I. A. Sherenkov, “Problem of approximate hydrothermal modeling of cooling ponds,” in: Transactions of Joint Conferences on Hydraulic Engineering [in Russian], No. 32 (1967).

  13. I. A. Sherenkov, Applied Two-Dimensional Problems of Hydraulics of Tranquil Flows [in Russian], Énergiya, Moscow (1978).

    Google Scholar 

  14. R. E. Vershik, “Prediction of stratification and mixing in cooling ponds of thermal and nuclear power stations,” Izv. VNIIG, im. B. E. Vedeneeva.

  15. D. R. Harleman and G. H. Jirka, Analysis and Design of Cooling Ponds: Lecture Notes for the International Advanced Course: “Heat Disposal from Power Generation”, Lecture No. 7, Dubrovnik, Yogoslavia (1976).

    Google Scholar 

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Authors
  1. A. S. Sokolov
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Translated from Gidrotekhnicheskoe Stroitel'stvo, No. 1, pp. 4–14, January, 1997.

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Sokolov, A.S. Modeling the wind effect on cooling ponds. Hydrotechnical Construction 31, 1–13 (1997). https://doi.org/10.1007/BF02767281

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