深海资料浮标体及系泊系统的阻力试验研究   总被引：1，自引：0，他引：1  

张子俊  张祖枢 《海洋技术学报》1993,12(3):7-15

本文结合国家“七五”重点科技攻关项目“深海资料浮标”研制而进行浮标体和系泊系统的各种阻力试验研究，试验成果已直接应用于深海资料浮标系泊系统设计。实践表明本文介绍的各种阻力试验结果是可靠的。  相似文献   

油轮系泊墩式码头时撞击能量的概率分布研究     

潘锦嫦 《海岸工程》1996,15(1):1-6

利用某煤油轮系泊墩式码头靠泊力整体模型试验的资料，分析油轮系泊码头时，在不规则波作用下总撞击能量的分布。计算表明，在不规则波作用下，无因次总撞击能量的概率分布符合ＰⅢ型分布曲线。  相似文献   

半潜平台浮子式系泊系统参数优化研究     

吴澜  匡晓峰  范亚丽  王飞  李新鑫 《海洋工程》2016,34(4):30-37

通过在系泊缆中设置浮子可以改善系泊系统性能,降低平台运动响应。建立浮子式系泊系统的数值计算模型,验证浮子式系泊系统数值计算方法,详细分析浮子设计参数(设置位置和净浮力大小)变化对系泊缆张力特性与平台运动的影响规律,并根据得到的规律选择了优化的浮子系泊系统方案。最后对优化方案进行评估,表明优化方案可以显著降低系泊中的平台水平运动,尤其是低频运动,同时系泊缆张力变化不大,仍满足安全要求。研究结果可为今后浮子式系泊系统设计提供参考。  相似文献   

浅层折射波法优化系统在将军崖地质病害调查中的应用     

周鸿秋  顾汉明 《地球科学》1991,16(4):445-452

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半潜式起重平台系泊系统设计与优化研究     

樊磊  孙丽萍  王宏伟  王金光 《海洋工程》2015,33(1):31-38

近年来,国内兴起了大力发展半潜式起重平台的势头,系泊系统的设计与优化是该类型平台开发中的关键问题之一。采用时域方法对半潜式起重平台系泊系统进行耦合动力分析,研究系泊系统主要参数对其动力响应特性的影响,并给出主要参数的设计优化流程,在此基础上,以能够满足安全校核且性能较优的系泊方案为目标,对该半潜式起重平台的系泊系统进行优化设计,并研究单根系泊缆发生破断对整个系泊系统的影响。结果表明:基于主要参数对系泊性能的影响规律,经优化设计得到的系泊方案,预留的安全欲度适中,能够保障半潜式起重平台在恶劣海况下的生存能力,同时具备较好的经济性。  相似文献   

首钢京唐钢铁厂压缩空气供气系统的优化设计     

周玉磊 《中国勘察设计》2010,(8):74-76

通过首钢京唐钢铁厂的压缩空气供气系统的设计,探讨了在设计中所采用的优化及余热再生等节能技术,和所能达到的良好的经济效益。  相似文献   

新型半潜式海上风力机基础水动力特性研究     

魏东泽  阙小玲  付图南  周阳  杜珈宇  王金涛 《海洋工程》2022,40(1):82-92

概念性地设计了一种新型半潜式海上风力机基础,确定了结构的型式和尺寸,对风浪联合作用下不同工况的风力机基础稳性进行了校核.考虑黏性阻尼和二阶波浪力的作用,计算分析了风力机基础的水动力系数、幅频运动以及动力响应特性.结果表明,经过改进的新型风力机基础具有良好的稳性和水动力性能,特别是在垂荡性能上有大幅的提升.波浪入射角度对垂荡的影响不大,但对其他自由度RAOs影响较大.垂荡、横摇和纵摇RAOs均存在一个主峰值和次峰值,但峰值周期均远离波能集中区.此外还发现,不同工况下风浪入射角对风机系统的动力响应和系泊力均有较大影响,相对于工作工况,极端工况下所受风荷载较小,但是系泊力更大.  相似文献   

海洋平台抛锚方式模糊优化设计方法          下载免费PDF全文

霍发力  杨德庆 《海洋工程》2014,32(2):52-60

海上钻井平台由于工作地点经常发生变化,工作环境条件随之改变,锚泊抛锚方式就要相应更改。本文针对深海半潜平台及其悬链线式系泊定位系统,运用平台与锚链耦合运动时域分析方法,对其水动力性能进行探索,并提出一种运用模糊算法计算平台抛锚方式优化设计方法,此方法可使钻井平台在风暴自存工况和钻井工作工况下更快更好地找到最佳抛锚方式。以一典型的半潜式钻井平台为例进行数值模拟,结果表明本文提出的方法是可行的,能够很方便地找到比较好的抛锚方式来满足相关要求。这种锚泊优化设计方法可为平台及其系泊系统设计提供参考。  相似文献   

Dynamic response analysis of a floating mooring system   总被引：1，自引：0，他引：1  

Conghuan Le  Hongyan Ding  Puyang Zhang 《中国海洋大学学报(英文版)》2014,13(3):381-389

An innovative floating mooring system with two or more independent floating mooring platforms in the middle and one rigid platform on each side is proposed for improving efficiency and safety in shallow water. For this new system, most of collision energy is absorbed through the displacement of floating platforms. In order to illustrate the validity of the system, a series of model tests were conducted at a scale of 1:40. The coupled motion characteristics of the floating mooring platforms were discussed under regular and irregular waves, and the influences of wave direction and other characteristics on dynamic response of the system were analyzed. The results show that the mooring system is safest at 0° of wave incident angle, whereas the most dangerous mooring state occurs at 90° of wave incident angle. Motion responses increase with the increase of wave height, but are not linearly related to changes in wave height.  相似文献   

Dynamics of large-truncated mooring systems coupled with a catenary moored semi-submersible   总被引：2，自引：2，他引：0  

徐胜  嵇春艳 《中国海洋工程》2014,28(2):149-162

With the floating structures pushing their activities to the ultra-deep water,model tests have presented a challenge due to the limitation of the existing wave basins.Therefore,the concept of truncated mooring system is implemented to replace the full depth mooring system in the model tests,which aims to have the same dynamic responses as the full depth system.The truncated mooring system plays such a significant role that extra attention should be paid to the mooring systems with large truncation factor.Three different types of large truncation factor mooring system are being employed in the simulations,including the homogenously truncated mooring system,non-homogenously truncated mooring system and simplified truncated mooring system.A catenary moored semi-submersible operating at 1000 m water depth is presented.In addition,truncated mooring systems are proposed at the truncated water depth of 200 m.In order to explore the applicability of these truncated mooring systems,numerical simulations of the platform’s surge free decay interacting with three different styles of truncated mooring systems are studied in calm water.Furthermore,the mooring-induced damping of the truncated mooring systems is simulated in the regular wave.Finally,the platform motion responses and mooring line dynamics are simulated in irregular wave.All these simulations are implemented by employing full time domain coupled dynamic analysis,and the results are compared with those of the full depth simulations in the same cases.The results show that the mooring-induced damping plays a significant role in platform motion responses,and all truncated mooring systems are suitable for model tests with appropriate truncated mooring line diameters.However,a large diameter is needed for simplified truncated mooring lines.The suggestions are given to the selection of truncated mooring system for different situations as well as to the truncated mooring design criteria.  相似文献