Evaluation of the numerical wave model (SWAN) for wave simulation in the Black Sea

This study summaries the implementation of the SWAN model forced by the ECMWF ERA Interim dataset reanalyzed 10m winds over the Black Sea which will be used to study the wind-wave climate and wave energy potential in the region, and its verification. The SWAN model results were compared with directi...

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Veröffentlicht in:	Continental shelf research 2012-12, Vol.50-51, p.80-99
Hauptverfasser:	Akpınar, Adem, van Vledder, Gerbrant Ph, Kömürcü, Murat İhsan, Özger, Mehmet
Format:	Artikel
Sprache:	eng
Schlagworte:	Black Sea Buoys Coasts Computer simulation Continental shelves Deep water Estimates JONSWAP method Mathematical models Shallow water processes SWAN model Wave prediction and simulation
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creator	Akpınar, Adem van Vledder, Gerbrant Ph Kömürcü, Murat İhsan Özger, Mehmet
description	This study summaries the implementation of the SWAN model forced by the ECMWF ERA Interim dataset reanalyzed 10m winds over the Black Sea which will be used to study the wind-wave climate and wave energy potential in the region, and its verification. The SWAN model results were compared with directional buoy measurements at three locations along the north and south coasts of the Black Sea, parametric model results based on the JONSWAP growth relations, and the results of previous studies. The SWAN model has been applied in a third generation and non-stationary mode with spherical coordinates. The linear and exponential growth from wind input, depth-induced wave breaking, bottom friction, whitecapping, four-wave (for deep water) and triad-wave (for shallow water) nonlinear interactions have been activated in the simulations. The results of this study indicate that agreement between simulated and observed wave parameters is satisfactory and it is slightly more accurate than the results of the previous studies. However, it still has lower estimates for the maximum values of both wave parameters. These lower estimates are probably due to too low wind speeds in the applied ECMWF wind fields, which is probably caused by orographic effects, and due to the relatively course resolution in time and space of the ECMWF (ERA-Interim) wind fields for the Black Sea. ► We implemented SWAN model forced by ECMWF wind fields over the Black Sea. ► The SWAN model results were validated with buoy measurements at three locations. ► The SWAN model results were also compared with the results of previous studies. ► The SWAN results were compared with results based on the JONSWAP growth relations.
doi_str_mv	10.1016/j.csr.2012.09.012
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The SWAN model results were compared with directional buoy measurements at three locations along the north and south coasts of the Black Sea, parametric model results based on the JONSWAP growth relations, and the results of previous studies. The SWAN model has been applied in a third generation and non-stationary mode with spherical coordinates. The linear and exponential growth from wind input, depth-induced wave breaking, bottom friction, whitecapping, four-wave (for deep water) and triad-wave (for shallow water) nonlinear interactions have been activated in the simulations. The results of this study indicate that agreement between simulated and observed wave parameters is satisfactory and it is slightly more accurate than the results of the previous studies. However, it still has lower estimates for the maximum values of both wave parameters. These lower estimates are probably due to too low wind speeds in the applied ECMWF wind fields, which is probably caused by orographic effects, and due to the relatively course resolution in time and space of the ECMWF (ERA-Interim) wind fields for the Black Sea. ► We implemented SWAN model forced by ECMWF wind fields over the Black Sea. ► The SWAN model results were validated with buoy measurements at three locations. ► The SWAN model results were also compared with the results of previous studies. ► The SWAN results were compared with results based on the JONSWAP growth relations.</abstract><pub>Elsevier Ltd</pub><doi>10.1016/j.csr.2012.09.012</doi><tpages>20</tpages></addata></record>
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subjects	Black Sea Buoys Coasts Computer simulation Continental shelves Deep water Estimates JONSWAP method Mathematical models Shallow water processes SWAN model Wave prediction and simulation
title	Evaluation of the numerical wave model (SWAN) for wave simulation in the Black Sea
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