Effect of Varying Bottom Topography on the Radiation of Water Waves by a Floating Rectangular Buoy

Effect of Varying Bottom Topography on the Radiation of Water Waves by a Floating Rectangular Buoy

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In the present study, the effect of an undulated great neck chisels bottom topography on the radiation of water waves by a floating rectangular buoy is analyzed.Various physical quantities of interest such as the added mass and damping coefficients associated with the surge, heave, and pitch motions are analyzed for a variety of parameters associated with the incident waves and bottom undulations.The study reveals that the added mass and damping coefficients associated with the surge and pitch motions of the floating buoy vary in an oscillatory manner with the variation in wavenumber for a sinusoidally varying bottom topography.Moreover, the oscillation amplitude is higher around the primary Bragg value.Further, this oscillatory pattern and oscillation amplitude increase with an increase in the ripple amplitude and the number of ripples for a sinusoidally varying bottom.

However, a reverse pattern is formed with an increase in the depth ratio.In the long-wave regime, the added mass and damping coefficient corresponding to the surge motion become higher for a protrusion-type bed profile and lower for a depression-type bed profile.However, a reverse pattern is fr9938 observed in the intermediate- and short-wave regimes.