STORM SURGE MODELING IN THE CASPIAN SEA USING AN UNSTRUCTURED GRID
Abstract and keywords
Abstract (English):
Investigation surges is important for studying patterns of water dynamics in the Northern Caspian. Modeling of wind-surges fluctuations in the Caspian Sea was performed using the model ADCIRC (ADvanced CIRCulation). For numerical experiments was constructed an irregular triangulation computational grid that consists of 71,523 elements with minimum cell size 500 m (off the coast) and maximum - 10 km (in the center of the sea). It was compiled relative to the absolute zero water level for the Caspian Sea equal to −28" role="presentation" style="position: relative;">-28-28-28 m BS (Baltic System), taking into account flooding and drying of the coastal land. The NCEP/CFSR reanalysis of surface wind at a height of 10 meters and the atmospheric pressure from 1979 to 2017 were used as the input data. Since the Northern Caspian is covered with ice in winter, the sea ice concentration of OSI-450 reprocessing were used. To assess the quality of the model, the obtained model level data were compared with level measurement on weather stations Tuleniy Island and Makhachkala from 2003 to 2017. The correlation coefficient for Tuleniy Island varied within 0.79-0.88, for Makhachkala - 0.67-0.79. The mean value of the root-mean-square error was about 0.11 m for Tuleniy, and 0.06 m for Makhachkala. If we exclude fluctuations in sea level with an amplitude of less than 10 cm, the correlation values increase on average by 0.04. Three main synoptic situations were identified that lead to the formation of surges of more than 1 meter on Tuleniy Island. The contribution of wind to the formation of surge height is predominant (92-100%) compared with the contribution of the horizontal pressure gradient (0-8%).

Keywords:
Storm surge, ADCIRC, Caspian Sea, sea level, unstructured grid
References

1. Apollov, B. A. (1935) , The water balance of the Caspian Sea and possible changes in it, Proceedings of the Central Institute of Experimental Hydrology and Meteorology, 44, no. 2, p. 11-18 (in Russian)

2. Baidin, S. S., A. N. Kosarev (Eds.) (1986) , The Caspian Sea: Hydrology and Hydrochemistry, 261 pp., Nauka, Moscow (in Russian)

3. Bolgov, M. V., G. F. Krasnozhon, A. A. Lyubushin (2007) , The Caspian Sea: Extreme Hydrological Events, 381 pp., Nauka, Moscow (in Russian)

4. Fomina, N. D. (1967) , About non-periodic fluctuations of the level in the Apsheron archipelago, Proceedings of the Scientific and Technical Conference on the Hydrometeorological Services of Azerbaijan and the Caspian Sea, Baku, p. 38-40, Hydrometeorological Services of Azerbaijan, Baku (in Russian)

5. German, V. X., N. P. Dovgopol (1967) , The calculation of the maximum levels of low supply on the example of the Caspian and Aral seas, SOI Proceedings, no. 80, p. 17-29 (in Russian)

6. Gershtansky, N. D. (1973) , Properties of wind-surges water level fluctuations in the wellhead seashore of Volga, SOI Proceedings, no. 116, p. 131-145 (in Russian)

7. Gumbel, E. (1965) , Statistics of Extreme Values, 465 pp., Mir, Moscow (in Russian)

8. Ivanova, A. A., V. S. Arkhipkin, S. A. Myslenkov, et al. (2015) , Modeling of storm surges in the coastal zone of the Sakhalin Island, Moscow University Bulletin, Series 5, Geography, no. 3, p. 41-49 (in Russian)

9. Kan, S. I. (1958) , Long period forecasts of ice phenomena on the Caspian Sea, Proceedings of the Central Institute of forecasts, no. 76, p. 64-70 (in Russian)

10. Karakash, A. I. (1939) , Method of predicting short-term changes in the level in the internal seas of the USSR, Meteorology and Hydrology, no. 3, p. 78-82 (in Russian)

11. Korablina, A. D., A. T. Kondrin, V. S. Arkhipkin (2017) , Simulation of surges in the White and Barents seas for the period 1979-2015, Proceedings of the Hydrometcentre of Russia, no. 364, p. 144-158 (in Russian)

12. Luettich, R. A., J. J. Westerink, N. W. Scheffner (1992) , ADCIRC: an advanced three-dimensional circulation model for shelves coasts and estuaries, Report 1: Theory and methodology of ADCIRC-2DDI and ADCIRC-3DL, Dredging Research Program Technical Report DRP-92-6, U.S. Army Engineers Waterways Experiment Station, Vicksburg, MS

13. Nesterov, E. S. (Ed.) (2016) , Water balance and level fluctuations of the Caspian Sea. Modeling and prediction, 378 pp., Triada LTD, Moscow (in Russian)

14. Nesterov, E. S., S. K. Popov, A. L. Lobov (2018) , Statistical characteristics and modeling of storm surges in the North Caspian Sea, Russian Meteorology and Hydrology, 43, no. 10, p. 664-669, https://doi.org/10.3103/S1068373918100059

15. Saha, S., et al. (2010) , The NCEP Climate Forecast System Reanalysis, Bulletin of American Meteorological Society, 91, p. 1015-1057

16. Saha, S., et al. (2014) , The NCEP Climate Forecast System Version 2, Journal of Climate, 27, no. 6, p. 2185-2208, https://doi.org/10.1175/JCLI-D-12-00823.1

17. Skriptunov, N. A. (1958) , Hydrology of the pre-mouth Volga coastal waters, 143 pp., Gidrometeoizdat, Moscow (in Russian)

18. Terziev, F. S., A. N. Kosarev, A. A. Kerimov (Eds.) (1992) , Hydrometeorology and hydrochemistry of seas. Vol. VI. The Caspian Sea. Issue 1. Hydrometeorological conditions, 131-145 pp., Gidrometeoizdat, St. Petersburg (in Russian)

19. Verbitskaya, O. A., O. I. Zilberstein, S. K. Popov, et al. (2002) , Method of short-term hydrodynamic forecasting of storm surges in the north part of the Caspian Sea and results its testing, Informational Collection, no. 29, p. 76-89 (in Russian)

20. Westerink, J. J., C. A. Blain, R. A. Luettich, et al. (1994) , ADCIRC: an advanced three-dimensional circulation model for shelves coasts and estuaries, Report 2: Users manual for ADCIRC-2DDI. Dredging Research Program Technical Report DRP-92-6, U.S. Army Engineers Waterways Experiment Station, Vicksburg, MS

21. Zil'bershtein, O. I., S. K. Popov, M. M. Chumakov, et al. (2001) , A Procedure for Calculating Extreme Characteristics of the Northern Caspian Sea Level, Water Resources, 28, no. 6, p. 632-639, https://doi.org/10.1023/A:1012833712510

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