Use this url to cite publication: https://hdl.handle.net/20.500.14172/3139
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Hydrodynamic conditions near the northern shore of Sambia Peninsula (the Baltic Sea) as a basis of geotextile debris transport analysis
Type of publication
Straipsnis konferencijos medžiagoje Web of Science duomenų bazėje / Article in conference proceedings in Web of Science database (P1a1)
Type of document
type::text::conference output::conference proceedings::conference paper
Author(s)
Sokolov, Andrei | Russian Academy of Sciences |
Chubarenko, Boris | Russian Acadamy of Sciences |
Title
Hydrodynamic conditions near the northern shore of Sambia Peninsula (the Baltic Sea) as a basis of geotextile debris transport analysis
Date Issued
Date Issued |
---|
2018 |
Extent
p. 1-6
Is part of
2018 IEEE/OES Baltic International Symposium (BALTIC) : 12-15 June, 2018, Klaipeda, Lithuania. Piscataway : IEEE, 2018. ISBN 9781538644683.
Field of Science
Abstract
Storm winds with direction from western quarter have a negative impact on the shore of the Sambia Peninsula (South-Eastern Baltic). Cliffs and dunes are partly protected against erosion by different constructions including geotextile. Most of them are located at the northern shore of the Sambia Peninsula, namely, near Svetlogorsk and Pionerskiy towns. Consecutive, storm by storm, forcing destroys the protective constructions, geotextile pieces are spread over surrounding area and the debris of them pollute the sea. The aim of the study was to find out what winds produce the most significant threat for erosion and therefore form the initial conditions for transport of geotextile debris alongshore. Numerical simulations by SHYFEM model calibrated against the field data was used to analyze the structure of near shore hydrodynamics. It was supposed that a threat for coastal erosion is proportional to wind and wave induced sea level run-up and speed of coastal currents. Simulations showed that winds of the northwest and even western directions could potentially cause the maximum erosion at the northern shore of the Sambia Peninsula. These winds may lead to the sea level rise up to 0.3-0.5 m and speed of currents up to 0.7-0.8 m/s and more (at winds of 20 m/s).
ISBN (of the container)
9781538644683
9781538644676
ISSN (of the container)
2150-6027
2150-6035
WOS
000462758500022
eLABa
34697766
Coverage Spatial
Jungtinės Amerikos Valstijos / United States of America (US)
Language
Anglų / English (en)
Bibliographic Details
11