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| Analysis of Load Characteristics of a Ship in Oblique Regular Waves |
| JIAO Jialong,REN Huilong,YU Haicheng |
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(College of Shipbuilding Engineering, Harbin Engineering University, Harbin 150001, China) |
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Abstract Abstract: Rectangular and cylindrical tubular backbones were used to serve as the backbones of a segmented model for wave load tests. The backbones were designed to meet the stiffness distribution requirements of the model in order to be similar to that of ship prototype. The model was tested in a towing tank in different sea states at different sailing conditions. The results indicate that the segmented model proposed in this paper is capable of simulating the elastic effects of ship sailing in oblique waves. In addition, the threedimensional nonlinear hydroelasticity theory was adopted to calculate the wave load responses of the ship sailing in oblique wave conditions. The comparison of the numerical results and the experimental results shows that the wave loads obtained by the two methods are in good agreement.
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Received: 27 January 2015
Published: 28 March 2016
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