Author(s)

Mohammad Nabi Allahdadi¹, Nazanin Chaichitehrani², Mohammadreza Allahyar³, Laura McGee¹

¹North Carolina State University, Department of Marine, Earth, and Atmospheric Sciences, Raleigh, North Carolina, USA.
²Louisiana State University, Department of Oceanography and Coastal Sciences, Baton Rouge, Louisiana, USA.
³Iranian Ports and Maritime Organization, Tehran, Iran.

The third generation wind-wave model Mike21-SW was used to study spectral characteristics of waves generated by the historical Cyclone Gonu in June 2007 along and off the Iranian coasts on the northern Oman Sea. The model was forced with the cyclone wind field generated using a Holland (1980) model based on cyclone data obtained from the Joint Typhon Warning Center (JTWC). The wave model was calibrated for the northern Oman Sea using bulk and spectral wave data at a station out of the Chabahar Bay. Evolution of directional-frequency spectra during the cyclone was investigated for two locations near the entrance and off the Chabahar Bay. At the offshore station, energy was contributed to the spectrum over an approximately 180 degree directional span that included different local and remotely generated waves. As the cyclone proceeded northwestward, all spectral directions continuously rotated in the clockwise direction at both locations. Frequency spectra at these locations were investigated for four different times corresponding to different locations of Cyclone’s eye and were justified using the sea growth parameter of the Joint North Sea Wave Project (JONSWAP) experiment. Using the modified JONSWAP parameters for hurricane conditions resulted in a frequency spectrum consistent with simulation results.

Cyclone Gonu, Oman Sea, Chabahar Bay, Wave Modeling, Wave Spectrum, JONSWAP

Allahdadi, M. , Chaichitehrani, N. , Allahyar, M. and McGee, L. (2017) Wave Spectral Patterns during a Historical Cyclone: A Numerical Model for Cyclone Gonu in the Northern Oman Sea. Open Journal of Fluid Dynamics, 7, 131-151. doi: 10.4236/ojfd.2017.72009.