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Calculation of a capsizing rate of a ship in stochastic beam seas |
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| Authors: | Kim Sung Hoon Rhee Key-Pyo |
| Institution: | aDaewoo Shipbuilding & Marine Engineering Co., Ltd, 1, Aju-dong, Geoje-si, Gyeongsangdam-do 656-714, South Korea;bNaval Architecture and Ocean Engineering, College of Engineering, Seoul National University, San 56-1, Sillim-dong, Kwanak-gu, Seoul 151-744, South Korea |
| Abstract: | This study introduces a method of calculating a capsizing rate of a ship. The phenomenon ‘capsizing’ is described as a jump of local equilibrium point from that near the upright position of a ship to what describes the upside-down attitude of the capsized ship; the rate of occurrence of such jumps was calculated. The potential function corresponding to the roll restoring moment have two potential wells located at the roll displacement angle 0 and 180°, respectively. A nonlinear Fokker–Planck equation for the joint probability density function of roll angle and velocity was solved. The excitation to the ship was assumed to be a combination of a regular harmonic wave and a white noise process. |
| Keywords: | Ship roll Capsizing rate Periodic restoring force model Fokker– Planck equation Regular-wave-over-white-noise excitation |
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