共查询到17条相似文献,搜索用时 218 毫秒
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为了研究舰船舱室破损对船体运动与波浪载荷的影响,采用三维频域势流理论,计算了发生第二类舱室破损后舰船在斜浪规则波上的运动与垂向弯矩。以一典型破损情况为例,计算了船舶破损后的浮态及稳性,并与破损前进行了比较,结果显示,横摇运动及垂向弯矩明显增加,而其它5个自由度运动则有所减小。基于船舶静力学原理,分析了舰船破损对浮态及稳性的影响。最后,使用格林函数法研究了舱室进水导致的液舱晃荡,结果表明,液舱晃荡附加质量在某些频率附近有明显的共振效应,必须通过阻尼系数考虑流体粘性的影响,避免产生非物理结果。 相似文献
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船体破损后外载荷与船体极限弯矩 总被引:8,自引:0,他引:8
基于船舶不沉性理论,运用符拉索夫抗沉性计算法确定船舶破损后浮态参数之后,作出波浪上船舶破损浮力曲线,继而计算了波浪弯矩和波浪剪力;并用非对称梁弯曲理论建立了破损模型,将外载荷与破口联系在一起研究了破损船舶极限弯矩,通过实例计算得出了预想结果。 相似文献
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Nie Wu 《船舶与海洋工程学报》2002,1(2):1-5
The appropriate prediction of the hull deflection of a severely damaged warship is an important area in the research of the warship survivability. In this paper, the asymmetrical beam bending theory is applied to set up the damaged model, a comparison of the longitudinal strength, the deflections of damaged hull subjected to both hagging and sagging moments, and shear forces is carried out. The external loads are also calculated according to different damaged positions. Finally, some results and conclusions are obtained. 相似文献
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破损舰艇拖航稳度是拖航安全性研究的重要方面.拖力作用、破损进水和波浪作用对破损舰艇的稳性产生较大影响.通过给出舰艇在波浪扰动情况下,舱组进水的被拖带破损舰艇稳度的计算方法,分析了各种航向航速对于稳度的影响,提出了提高破损舰艇拖航稳性措施,对于保障破损舰艇拖航安全具有一定的理论价值和实践意义. 相似文献
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In designing the support structures of floating wind turbines (FWTs), a key challenge is to determine the load effects (at the cross-sectional load and stress level). This is because FWTs are subjected to complex global, local, static, and dynamic loads in stochastic environmental conditions. Up to now, most of the studies of FWTs have focused on the dynamic motion characteristics of FWTs, while minimal research has touched upon the internal load effects of the support structure. However, a good understanding of the structural load effects is essential since it is the basis for achieving a good design. Motivated by the situation, this study deals with the global load effect analysis for FWT support structures. A semi-submersible hull of a 10-MW FWT is used in the case study. A novel analysis method is employed to obtain the time-domain internal load effects of the floater, which account for the static and dynamic global loads under the still water, wind, and wave loads and associated motions. The investigation of the internal stresses resulting from various global loads under operational and parked conditions and the dynamic behavior of the structural load effects in various environmental conditions are made. The dominating load components for structural responses of the semi-submersible floater and the significant dynamic characteristics under different wind and wave conditions are identified. The dynamic load effects of the floating support structure are investigated by considering the influence of the second-order wave loads, viscous drag loads induced global motions, and wind and wave misalignments. The main results are discussed, and the main findings are summarized. The insights gained provide a basis for improving the design and analysis of FWT support structures. 相似文献
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对于核发电船而言,考虑到核反应堆的安全性问题,船体结构即使发生破坏,也要保证整体的强度,所以有必要针对破损后的船体梁进行极限强度分析。在船体剩余极限强度分析中,核反应堆舱所处舱段的极限承载能力是整个核发电船极限强度分析的关键。文章研究的重点集中在核反应堆舱段,在该舱段选取危险剖面进行剩余极限强度分析。同时,采用中和轴偏转的Smith方法对反应堆舱段进行破损船体极限强度计算,并结合HCSR规范对其进行评估。根据该核电船作业海域的海况资料,对其遭遇的波浪载荷进行长期极值预报,进而得出该船破损情况下的设计极限弯矩。结果表明,该船的设计极限弯矩满足规范中的要求,为基于规范的特定海域中的特定船型剩余强度评估提供参考。 相似文献