会议论文详细信息
International Conference and Early Career Scientists School on Environmental Observations, Modeling and Information Systems: ENVIROMIS-2018
Computing complex for modeling the Black Sea
生态环境科学;计算机科学
Dymova, O.A.^1 ; Demyshev, S.G.^1
Wave Theory Department, Marine Hydrophysical Institute RAS, Kapitanskaya st. 2, Sevastopol
299011, Russia^1
关键词: Atmospheric forcing;    Baroclinic instability;    Basin-scale circulation;    High degree of accuracy;    Mesoscale variability;    Numerical experiments;    Quantitative agreement;    Seasonal variability;   
Others  :  https://iopscience.iop.org/article/10.1088/1755-1315/211/1/012082/pdf
DOI  :  10.1088/1755-1315/211/1/012082
来源: IOP
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【 摘 要 】

This paper presents a description of a computing complex and results of its use for modeling the Black Sea. The complex is created on the basis of a circulation model and contains blocks of hydrodynamics, energy, and pollutant transport. A numerical experiment is carried out with the Skiron reanalysis data of 2016 as atmospheric forcing. Fields of sea level, velocities of currents, temperature, and salinity are calculated. Comparison of the simulated temperature, salinity, and velocity with contact observations shows good qualitative and quantitative agreement with the in-situ data. The seasonal variability of a basin-scale circulation is reproduced in the velocity field. Mesoscale eddies are reconstructed, and an analysis of the mean current energy and the eddy energy is performed. The most intensive mesoscale variability was observed near the Crimean and Turkish coasts in 2016. The mean current kinetic energy is decreasing during the year, and the formation of mesoscale eddies is associated with baroclinic instability. A test calculation of the radioactive beryllium distribution is also carried out in this experiment. Comparison with real measurements shows that the complex simulates pollutant transport with high degree of accuracy.

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