Abstract
In this study, we analyze the experimental results of the mean sway (side drift) forces of six full type ships at low speeds in regular waves of various directions and compare them with numerical results of the in-house 3D panel code NEWDRIFT. It is noted that the mean sway force is most significant in relatively short waves, with the peak being observed at λ/LPP ≈ 0.5–0.6. For λ/LPP > 1.0, the corresponding value is rather small. We also observe a solid recurring pattern of the mean sway force acting on the analyzed full type ships. On this basis, we proceed to approximate the mean sway force with an empirical formula, in which only the main ship particulars and wave parameters are used. Preliminary validation results show that the developed empirical formula, which is readily applicable in practice, can accurately predict the mean sway force acting on a full ship, at both zero and non-zero speeds.
Subject
Ocean Engineering,Water Science and Technology,Civil and Structural Engineering
Reference44 articles.
1. The Pressure of Water Waves upon a Fixed Obstacle;Havelock;Proc. R. Soc. Lond. Ser. A Math. Phys. Sci.,1940
2. The drift of a body floating on waves;Maruo;J. Ship Res.,1960
3. The drift force and moment on ships in waves;Newman;J. Ship Res.,1967
4. Second-Order Steady State Forces and Moments on Surface Ships in Oblique Regular Waves;Salvesen,1974
5. Analysis of the resistance increase in waves of a fast cargo ship 12
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