基于体精确条带理论的极端海域船舶运动仿真计算

IF 0.5 Q4 TRANSPORTATION Pomorstvo-Scientific Journal of Maritime Research Pub Date : 2021-06-30 DOI:10.31217/p.35.1.5
K. Anil, D. B. Danişman, K. Sariöz
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引用次数: 0

摘要

在舰船设计的各个阶段,由于船舶运动线性理论的不足,在极端海域的耐波性计算的保真度有待讨论。目前利用计算机生成的船舶响应和浪高时间序列(实时计算机实验),利用“船舶水弹性理论”计算垂向变形、剪力和弯矩的分布。在这些研究的启发下,采用精确体条理论方法,对长波峰不规则头海的对称船舶运动进行了仿真计算。本研究的范围仅限于船舶运动。利用包含离散傅立叶变换(DFT)和平滑算法的频谱分析程序实现了验证。将计算结果与实验数据进行了比较,并与ANSYS AQWA软件计算结果进行了比较。仿真结果为极端响应提供了充分的数据。这种最先进的方法加上“精确体条理论方法”,确保了在极端海况下对耐波性能的一致评估。结果表明,该计算方法可用于舰船平台的设计阶段。
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Simulation based calculation of ship motions in extreme seas with a body-exact strip theory approach
For all design phases of naval vessels, the fidelity of seakeeping calculations in extreme seas is open to discussion due to the inadequacy of the linear theory of ship motions. Currently the computer-generated time series of ship responses and wave height (the real time computer experiments) are utilized to calculate the distribution of the vertical distortion, shear force and bending moment by means of “ship hydroelasticity theory”. Inspired by these studies a simulation based calculation of symmetric ship motions is performed in long crested irregular head seas, in addition with a body-exact strip theory approach. The scope of this study is limited to the ship motions only. Verification is achieved utilizing the spectral analysis procedure which contains the discrete Fourier transform (DFT) and the smoothing algorithms. The results are compared with the experimental data, and the ANSYS AQWA software results. The simulation results provide adequate data for the extreme responses. This state-of-the-art method in addition with a “body-exact strip theory approach” ensures the consistent assessment of the seakeeping performance in extreme sea condition. As a result, it is evaluated that this calculation method can be used in the design stages of naval platforms.
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来源期刊
CiteScore
1.50
自引率
0.00%
发文量
19
审稿时长
8 weeks
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