Full-scale URANS prediction of a vessel's transverse stability in wind and waves under lifting condition

IF 0.7 4区 工程技术 Q4 ENGINEERING, MARINE International Journal of Maritime Engineering Pub Date : 2022-11-28 DOI:10.5750/ijme.v164ia2.811
Yaru Yu, Z. Kok, S. Chai, H. Enshaei, M. Woodward
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Abstract

Predicting a vessel’s motion response is important for the design as well as evaluating its operability and sustainability. This is often performed in towing tanks through captive model tests in towing tanks. However, discrepancies exist between model-scale and full-scale results. Besides, quite often, the wind is not included in the test, resulting in unrealistic assumptions of static pressure and constant heeling lever from the wind. This paper presents a study on transverse stability under wind, waves, and lifting conditions, incorporating several series of URANS-based simulations in model-scale and full-scale. According to the results, scaling effects accounts for about 3~15% in terms of roll amplitudes and it seems to be both frictional-force-related and wave-frequency-dependent. Wind force exerts limited influence on the vessel’s transverse stability, however, in waves especially for longer wavelength, a wind of 25 m/s increases the roll amplitude up to 53% and it appears to be wave frequency-dependant. The correlation between roll motion and wind/waves/lifting is complicated but their combination produces way more influence than any individual factor alone, indicating none of them should be neglected.
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提升条件下船舶在风浪中横向稳定性的全尺度URNS预测
预测船舶的运动响应对于设计以及评估其可操作性和可持续性都很重要。这通常是通过牵引罐中的圈养模型试验在牵引罐中进行的。然而,模型规模和全尺寸结果之间存在差异。此外,通常情况下,风不包括在测试中,导致风对静压和恒定横倾杆的假设不切实际。本文研究了风、波浪和升力条件下的横向稳定性,结合了几系列基于URANS的模型规模和全尺寸模拟。结果表明,按滚转幅度计算,尺度效应约占3~15%,它似乎既与摩擦力有关,又与波频有关。风力对船舶的横向稳定性影响有限,然而,在波浪中,尤其是在较长波长的波浪中,25 m/s的风会使横摇幅度增加53%,并且似乎与波浪频率有关。滚转运动与风/波浪/升力之间的相关性很复杂,但它们的组合产生的影响远大于任何单独因素,这表明它们都不应被忽视。
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来源期刊
CiteScore
1.20
自引率
0.00%
发文量
18
审稿时长
>12 weeks
期刊介绍: The International Journal of Maritime Engineering (IJME) provides a forum for the reporting and discussion on technical and scientific issues associated with the design and construction of commercial marine vessels . Contributions in the form of papers and notes, together with discussion on published papers are welcomed.
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