Modeling of oil spreading in a problem of radar multiangle diagnostics of Sea surface pollutions |
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| Authors: | A Ya Matveev A A Kubryakov A G Boev D M Bychkov V K Ivanov S V Stanichny V N Tsymbal |
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| Institution: | 1.Usikov Institute for Radiophysics and Electronics,National Academy of Sciences of Ukraine,Kharkiv,Ukraine;2.Marine Hydrophysical Institute,Sevastopol,Russia;3.St. Petersburg State University,St. Petersburg,Russia;4.Institute of Radio Astronomy,National Academy of Sciences of Ukraine,Kharkiv,Ukraine |
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| Abstract: | The possibilities of a multiangle method of radar diagnostics to determine thickness of an oil film on a sea surface by comparing the radar data with the quantitative modeling results obtained using the model of oil spreading dynamics are analyzed. The experimental results of the remote sensing of the Caspian Sea water area near the Neftyanye Kamni oil field by the Envisat-1 synthetic aperture radar (SAR) and the new Floating Objects Tracking System (FOTS) model of oil spreading are used for the analysis. The model allows to calculate the dynamics and change in the mass and size of an oil slick basing only on the available data of satellite measurements and atmospheric reanalysis.The model takes into account the main processes that influence the slick formation (gravity spreading, advective transport, dispersion, emulsification, turbulent mixing, and evaporation). This model is used to calculate the thickness evolution and dynamics of the displacement of oil slicks in the period between two consecutive radar images of this region (0.5–4 days) and to estimate the volumes of oil spilled in the field. The good consistence of the height of the oil film calculated using radar measurements and the modeling results confirms the method’s reliability. |
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