Tarkan Erdik, Serdar BEJİ

Statistical Analyses of Wave Height and Wind Velocity Distributions for the Sea of Marmara

The Sea of Marmara, a relatively small basin located between the Black Sea and the Aegean Sea with narrow seaways of the Bosphorus and the Dardanelles, has vital importance in coastal and ocean engineering activities due to substantial industrial development surrounding it and related sea traffic. Despite this importance, measurements concerning coastal engineering applications, in particular the wave climate, are quite scarce. Lack of essential data impairs the reliability of engineering works such as breakwaters and coastal protection structure designs. For a period of approximately one year between February 2013 and January 2014 Turkish Petroleum International Company (TPIC) carried out wave and wind measurements in the Sea of Marmara. The data were collected in 30-minute intervals throughout the one year span at the location of 41o04’ N and 28o19’ E with 50 m water depth. The present work analyses this rather unique data statistically for wind, wave height and energy conditions in the Sea of Marmara.

Keywords:

Marmara Sea Wind stress, Wave height distribution,

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Abdollahzadehmoradi, Y., Özger, M., Altunkaynak, A. (2017) Long-term Macro-scale Assessment of Wave Power of Black Sea by an Optimized Numerical Model, Iranian Journal of Science and Technology, Transactions of Civil Engineering, accepted to be published. Battjes, J. A. (1972). Long-term wave height distributions at seven stations around the British Isles. Deutsche Hydrografische Zeitschrift, 25(4), 179-189. Bidlot, J-R, (2016), Ocean wave model output parameters https://software.ecmwf.int/wiki/download/attachments/19661682/wave_parameters.pdf?version=1&modificationDate=1493804133220&api=v2 Frostick, L. E., McLelland, S. J., & Mercer, T. G. (Eds.). (2011). Users guide to physical modelling and experimentation: Experience of the HYDRALAB network. CRC Press. Hofland, B., Chen, X., Altomare, C., & Oosterlo, P. (2017). Prediction formula for the spectral wave period T m-1, 0 on mildly sloping shallow foreshores. Coastal Engineering, 123, 21-28. Kamphuis, J. W. (2010). Introduction to coastal engineering and management (Vol. 30). World Scientific Publishing Co Inc. Longuett-Higgins, M. S. (1952). On the statistical distribution of the heights of sea waves. J. Mar. Research, 11(3), 245-266. Van de Walle, B. (2003). Wave run-up on rubble mound breakwaters (Doctoral dissertation, Ghent University). Van de Walle, B. (2003). Wave run-up on rubble mound breakwaters (Doctoral dissertation, Ghent University).