RUSSIAN JOURNAL OF EARTH SCIENCES, VOL. 20, ES1006, doi:10.2205/2019ES000688, 2020
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Storm surge modeling in the Caspian Sea using an unstructured grid
Figures
- Figure 1. Computational grid.
- Figure 2. Sea level scatter diagram for 2009 (a) and 2015 (b) on Tuleniy.
- Figure 3. The contribution of the horizontal pressure gradient (surges...
- Figure 4. Number of oscillations $ > 0.5$ m from 1979 to 2017 (Tuleniy...
- Figure 5. Sea level at Tuleniy station for surge 19–23 November...
- Figure 6. The calculated sea level in the Northern Caspian at 12:00 21...
- Figure 7. Sea level at Tuleniy station for surge 27 March to 1 April 2015...
- Figure 8. The calculated sea level in the Northern Caspian at 12:00 30...
- Figure 9. Sea level at Tuleniy station for surge 12–16 March 1995...
- Figure 10. The calculated sea level in the Northern Caspian at 12:00 13...
Tables
- Table 1. Statistical Analysis of Sea Level Comparisons by Model and Measurement...
- Table 2. Statistical Analysis of sea Level Comparisons by Model and Measurement...
Citation: Pavlova A. V., V. S. Arkhipkin, S. A. Myslenkov (2020), Storm surge modeling in the Caspian Sea using an unstructured grid, Russ. J. Earth Sci., 20, ES1006, doi:10.2205/2019ES000688.
Copyright 2020 by the Geophysical Center RAS.
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