Wind Influence on the Formation of Nearshore Currents in the Southern Baltic: Numerical Modelling Results

Allard R., Rogers E., Carroll S. N., Rushing K. V. (2002), Software Design Description for the Simulating WAves Nearshore Model (SWAN), Storming Media, Washington.10.21236/ADA409177Search in Google Scholar

Brown J. M.,Wolf J. (2009) Coupledwave and surge modelling for the eastern Irish Sea and implications for model wind-stress, Continental Shelf Research, 29, 1329-1342.10.1016/j.csr.2009.03.004Search in Google Scholar

Chao X., Jia Y., Shields Jr. E. D., Wang S. S. Y., Cooper C. M. (2008), Three-dimensional numerical modelling of cohesive sediment transport and wind wave impact in a shallow oxbow lake, Advances in Water Resources, 31, 1004-1014.10.1016/j.advwatres.2008.04.005Search in Google Scholar

Digital Topography of the Baltic Sea (2008), The Leibniz Institute for Baltic Sea Research. URL: http://www.io-warnemuende.de/topography-of-the-baltic-sea.htmlSearch in Google Scholar

Ding Y., Wang S. S. Y., Jia Y. (2003), Numerical studies on simulations of waves and nearshore currents in non-orthogonal mesh system, International Conference on Estuaries and Coasts,November 9-11, Hangzhou, China, 719-726.Search in Google Scholar

Eldeberky Y., Battjes J. A. (1995), Parameterization of triad interactions in wave energy models, Proceedings Coastal Dynamics 95, September 4-8, Gdansk, Poland, IBW PAN, 140-148.Search in Google Scholar

Gioia G., Bombardelli F. A. (2002), Scaling and Similarity in Rough Channel Flows, Physical Review Letters, 88, 014501-1 - 014501-4.10.1103/PhysRevLett.88.014501Search in Google Scholar

Longuet-Higgins M. S. (1970), Longshore Currents Generated by Obliquely Incident SeaWaves, Parts 1 and 2, Journal of Geophysical Research, 75 (33), 6778-6801.10.1029/JC075i033p06790Search in Google Scholar

Massel S. R. (1989), Hydrodynamics of Coastal Zones, Oceanography Series, 48, Elsevier Science & Technology.Search in Google Scholar

MIKE 21/3 Coupled Model FM (2005), User Guide, DHI Software.Search in Google Scholar

MIKE 21 & MIKE 3 Flow Model FM Hydrodynamic and Transport Module (2005) Scientific Documentation, DHI Software.Search in Google Scholar

MIKE 21 Spectral Wave Module (2005), Scientific Documentation, DHI Software.Search in Google Scholar

Ostrowski R., Pruszak S., Skaja M., Szmytkiewicz M. (2010a), Variability of Hydrodynamic Coastal Processes in the East Part of the Gulf of Gdansk, Archives of Hydroengineering and Environmental Mechanics, 57 (2), 139-153.Search in Google Scholar

Ostrowski R., Pruszak S., Skaja M., Szmytkiewicz M., Trifonova E., Keremedchiev S., Andreeva N. (2010b), Hydrodynamics and lithodynamics of dissipative and reflective shores in a view of field investigations, Archives of Hydroengineering and Environmentals Mechanics, 57 (3-4), 219-241.Search in Google Scholar

Pruszak S., Szmytkiewicz P., Ostrowski R., Skaja M., Szmytkiewicz M. (2008), Shallow-water wave energy dissipation in a multi-bar coastal zone, Oceanologia, 50 (1), 43-58.Search in Google Scholar

Seifert T., Kayser B. (1995), A high resolution spherical grid topography of the Baltic Sea, Meereswiss. Ber, (9), 72-88.Search in Google Scholar

Shadrin I. F. (1972), Coastal currents of on-tidal sea, Nauka, Moskva (in Russian).Search in Google Scholar

Smagorinsky J. (1963), General Circulation Experiment with the Primitive Equations, MonthlyWeather Review, 91 (3), 99-164.10.1175/1520-0493(1963)091<0099:GCEWTP>2.3.CO;2Search in Google Scholar