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FPSO水动力研究与进展 总被引:4,自引:2,他引:2
浮式生产储油轮(FPSO)是当今海洋石油天然气开发的主流工程设施。就目前国际上最为关注的FPSO水动力问题,包括深水FPSO与系泊、立管系统的耦合水动力预报、甲板上浪、FPSO与穿梭油轮组成的多浮体系统水动力、横摇运动与减摇措施、单点系泊FPSO的运动稳定性等进行了阐述,介绍了我国在浅水FPSO水动力问题上的研究进展,提出加强相关研究的建议。 相似文献
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甲板上浪发生时产生的巨大冲击载荷可以对海洋结构物造成严重破坏,其发生时的海况比较恶劣,带有较强的非线性特点。采用CFD软件Fluent中的动网格功能造波结合软件中的VOF模块捕捉自由液面再现了单个极大波浪的生成过程,继而对固定甲板情形下的上浪问题进行了考察,波浪遭遇甲板后产生了流动的分离,甲板上下的水体表现出了完全不同的流动特点。通过可视化计算结果和深入细致的速度剖面分析,更好地加深了对这一复杂流动过程的理解。最后还将模拟结果与实验结果在定性和定量上进行了对比,表现出了良好的一致性。 相似文献
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以浅水单点系泊装置水下软钢臂维修解脱为背景,研究在拖轮限位状态下FPSO运动与限位缆绳张力。计算在不同水深及浪向条件下,FPSO的二阶传递函数(QTF);分别应用Newman近似方法、全QTF法以及使用部分QTF值的方法,计算FPSO时域低频波浪载荷,并对其限位响应进行对比;计算不同长度时的限位缆绳张力响应,分析限位缆绳长度及FPSO波频运动对缆绳张力的影响。分析表明:Newman近似的适用性,应根据FPSO的QTF与海浪谱能量集中范围综合判断;为减少QTF计算量,可根据FPSO低频运动固有频率,确定频率间隔△ω的计算上限,采用部分QTF值计算低频波浪载荷,其响应预报结果与全QTF法接近;若FPSO的RAO能够避开海浪谱能量集中的频率范围,则在限位分析中可忽略FPSO波频运动的影响。 相似文献
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转塔位置是内转塔式FPSO设计中的重要参数,对风标效应以及运动和系泊力等有重要影响.采用时域分析方法分别计算了10万吨级FPSO在不同转塔位置时百年一遇风、浪、流海洋环境条件作用下的运动响应和系泊力,分析了不同转塔位置对FPSO水动力性能的影响.计算结果与模型实验进行了比较,结果表明,转塔位置的变化对FPSO风标效应、转塔系泊力等影响显著.分析结果对于选择理想的转塔位置具有一定的实际意义. 相似文献
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首先介绍全球海域圆筒形装置的工程应用案例,对比圆筒形FPSO相对常规船形的优势,然后以原油储量、工艺模块甲板面积、耐波性、稳性、系泊系统、排水量等控制参数为目标,研究圆筒形FPSO主尺度选取依据,分舱原则。重点研究圆筒形装置的阻尼板结构,此为抑制运动响应的关键结构,通过模型试验方法分析对比了水平阻尼板、不同角度锥形阻尼板的特性。最后研究圆筒形装置运动性能分析方法,介绍二阶响应数值预报方法,研究垂荡和横摇运动的耦合效应,分析波频和低频运动响应,通过模型试验进行了验证,从而指导圆筒形装置设计。 相似文献
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当FPSO服役于目标油田时,将受到风浪流的作用力。其中,风力给FPSO一个恒定的静力,使其偏离原来的位置。风力计算在FPSO系泊系统的分析过程中是非常重要的。设计人员常常参考OCIMF进行风力计算,或者参考API规范得出。OCIMF为针对油轮的计算规范,但使用OCIMF计算FPSO风力及流力的方法,与FPSO的适应性仍需要进一步论证。API规范针对海上浮式系统,其计算风流力的方法使用也非常广泛,其原理为将FPSO上部各个模块风力叠加得出。以FPSO风载荷为研究对象,开展了风洞模型试验,获得了典型FPSO风载荷特性曲线,并将试验结果分别与OCIMF结果和API规范计算结果进行对比分析,最终给出FPSO风力计算方法的建议。本数据可用于FPSO的风力计算,也可为FPSO运动、系泊的设计研究提供参考。 相似文献
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Dynamic Analysis of Turret-Moored FPSO System in Freak Wave 总被引:1,自引:1,他引:0
Freak wave is the common wave which has significant wave height and irregular wave shape, and it is easy to damage offshore structure extremely. The FPSOs (Floating Production Storage and Offloading) suffer from the environment loads, including the freak wave. The freak waves were generated based on the improved phase modulation model, and the coupling model of FPSO-SPM (Single Point Mooring) was established by considering internal-turret FPSO and its mooring system. The dynamic response characteristics of both FPSO and SPM affected by the freak wave were analyzed in the time domain. According to the results, the freak waves generated by original phase modulation model mainly affect the 2nd-order wave loads. However, the freak waves which are generated by random frequencies phase modulation model affect both 1st-order and 2nd-order wave loads on FPSO. What is more, compared with the irregular waves, the dynamic responses of mooring system are larger in the freak waves, but its amplitude lags behind the peak of the freak wave. 相似文献
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1 .IntroductionAfter enteringthe twenty-first century,offshore oil field development in China is rapidly expand-inginto deepwater (Zeng,2005 ;Liu and Pan,2002) .The conventional fixed platformmodels cannotsatisfythe requirement of newfield development .Floatingsystems ,suchastensionleg platform(TLP)or Spar ,will be neededfor oil field development .FPSOhas been usedfor offshore oil field development in China since 1980’s (Xu and Li ,2002 ;Chen and Qian,1999 ; Chen,2003) .Since early 19… 相似文献
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In recent years, offshore reservoirs have been developed in deeper and deeper water environments. Steel catenary risers (SCRs) are being considered in deepwater development such as Northern North Sea. SCRs used in conjunction with a semi-submersible or floating production, storage and offloading (FPSO) in deepwater harsh environments present significant design challenges. The large vertical motions at the semi or FPSO induce severe riser response, which results in difficulty meeting strength and fatigue criteria at the hang off and touch down point locations. To improve the understanding of SCR behaviour and increase the confidence in the design of such systems in deepwater harsh environments, a parametric study on a SCR connected to a semi-submersible was carried out in this paper to deal with the factors that mainly influence the loading condition and fatigue life of the riser. Weight-optimized configurations were applied during the course of riser design. Riflex combined with DeepC was the primary analysis tool used for the long-term response of the nonlinear SCR structure simulations, which requires a large amount of computer time. Hence, the parameters affecting the efficiency and accuracy of the simulations have also been studied during the analysis process. 相似文献
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This article aims to report important findings on how the asymmetric riser and bilge keel arrangements affect the motion response and green water assessment by using a real FPSO conversion project. Recently, the authors have proposed a practical approach for short-term and long-term green water prediction. In this paper, the method has been further extended to include the effect of truncated bilge keel by using Morrison elements. Numerical studies are conducted focusing on the effect induced by asymmetric riser arrangement and truncated bilge keels. Comparisons of short-term and long-term results between different models indicate that the FPSO’s motion is significantly affected by asymmetrically arranged appendages and attachments in a complicated way. The relative wave elevation is also affected by appendages and attachments, but not the same trend as the motion response. The effect of the asymmetric arrangement of risers and bilge keel on long-term relative wave elevation response has been captured by both traditional contour line approach and response-based analysis, but some discrepancy identified between the results from the two methods indicates the limitation of the traditional contour line approach. 相似文献
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Experiments carried out with models of floating production, storage and offloading platforms (FPSOs) showed that the flow of water over the deck edge, onto the deck resembled a suddenly released wall of water rather than a breaking wave. Therefore green water flow onto the deck was simulated using dam breaking theory, but the theory’s shallow-water assumptions may be limiting. In this paper a non-linear dam breaking problem is formulated. Equations of motion in the Lagrangian form are used and the solution is sought as an infinite series in time. Comparisons with the shallow water approximation are carried out. 相似文献