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坐底式平台沉浮稳性研究与计算 总被引:3,自引:0,他引:3
坐底式平台的沉浮稳性与它的作业性能密切相关。随着平台作业水深的不断加大,现有平台的沉浮稳性为操作者、设计者及船检部门所重视。文中分析了现有规范对沉浮稳性的衡准,介绍了计算沉浮稳性的程序框图及计算实例。对提高沉浮作业工况的安全性,给出了一些建议,供平台设计和操作者参考。 相似文献
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基于IMO第二代完整稳性草案中瘫船稳性第二层薄弱性衡准的有关研究,分析草案提出的简化计算方法,采用一个单自由度船舶横摇运动微分方程,利用例船CEHIPAR2792数据,编译相应程序,求得不规则横风横浪作用下瘫船横摇运动相应特征,进而计算特定海况下的倾覆概率及特定海区的平均倾覆指数,并与草案值进行对比。分析不同拟合扶正力臂曲线方法和剩余稳性高对计算结果的影响,并对瘫船稳性第二层薄弱性衡准方法进行修改。 相似文献
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本文提出了编制计算机程序来进行计算海洋平台导管架在运输、下水、就位中的浮态和稳性。该程序可对导管架在浮运和驳运系统中的浮态、完整稳性、破舱稳性及静水力曲线等进行分析和计算。通过对实例的验算,结果是准确的。该程序已能够为海洋石油开发事业服务。 相似文献
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针对圆筒型浮式生产储油平台,对其静稳性曲线做了分析研究,得到了圆筒型FPSO的稳性特点。根据平台实际作业情况,建立了一系列的典型装载工况,分别按照DNV和MARPOL公约稳性衡准的要求,对这些典型工况进行校核,同时得到满足稳性要求的许用重心高度曲线,给平台操作者提供了参考。经过计算,验证了圆筒型FPSO能同时满足DNV和MARPOL公约的稳性要求。最后对影响圆筒型FPSO稳性的主要因素做了分析研究,得到主要影响因素有主船体外形尺寸、装载工况、进水点位置、舱室划分与布置以及风倾力矩等。 相似文献
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《中国海洋大学学报(自然科学版)》2021,(11)
基于10 MW级大型风机,采用钢筋混凝土结构,进行了半潜浮式风机平台的概念设计,采用SESAM建立平台的数值模型,对立柱间距、立柱倾角及立柱直径对该半潜平台完整稳性的影响规律进行了重点研究并对平台进行优化,对优化后半潜平台的破舱稳性、综合许用重心高度及固有周期进行了验证。结果表明:以上因素以不同的方式影响平台完整稳性,而增加立柱倾角在钢筋混凝土用量和排水量等方面更具优势,优化后的平台完整稳性、破舱稳性、综合许用重心高度及运动周期均满足设计规范要求。 相似文献
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船舶随浪运动隐性仿真计算 总被引:3,自引:0,他引:3
本文利用Liapunov理论,研究了船舶在规划波良运动的稳性;利用摄动理论,求解出船舶运动响应;并讨论了船舶横摇与垂荡运动频率、最大横摇角和波浪要素对稳性曲线GZ的影响,以及流体动压力对稳性曲线的修正,从而给计算船舶在随浪中的稳性提供了一种。方法。 相似文献
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A new method for platform design, named parametric platform design method (PPDM), is presented in this paper in order to improve the mobile platform design efficiency. In this method, an integrated parametric system that fully considers the characteristics of the platform is developed, which significantly optimizes the design process with the top–bottom design concept. In the parametric system, the main geometric dimensions are taken as parameters, while the topology between the structure members, the function requirements and the safety requirements are converted into geometric constraints. By geometric constraint solving (GCS), a set of parameters that satisfy all the given constraints are determined, and then the design scheme is obtained by several core algorithms, such as parametric tank subdivision, 3D stability calculation, parametric structure design, FEM preprocessing, etc. The parametric method greatly increases the changeability and the reusability of the platform model, and concurrent design is well supported. As the model is driven by parameters, PPDM is an excellent method for optimization design. As a result, PPDM has incomparable advantages on the design efficiency over traditional methods. 相似文献
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门架式水力插板桩的抗滑移稳定性分析 总被引:1,自引:0,他引:1
门架式水力插板桩是1种新型的空间挡土结构,其抗滑移稳定性计算目前尚无成熟方法.文中给出了直角坐标系下门架式水力插板桩抗滑移稳定性计算的简化Bishop积分方法和安全系数表达式,并编制了安全系数计算程序.通过1个算例,将此方法的计算结果与GEO-Slope有限元软件的计算结果进行了比较,表明了该方法是可行的.探讨了土体内摩擦角、粘聚力、桩入土深度和双排桩间距对结构稳定性的影响,得出了当土体的内摩擦角和粘聚力较小时,应通过增加桩的入土深度来提高门架式水力插板桩的抗滑移稳定性等一些有意义的结论. 相似文献
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M. Söylemez 《Ocean Engineering》1996,23(5):423-445
This paper presents the derivation of a general method for calculating wave forces on the cylindrical members of offshore structures. By means of the proposed method one can calculate the wave loading on cylindrical members of fixed or floating offshore structures orientated randomly in waves. This method of calculating wave forces is based on the linear Airy wave theory. Calculation procedure of wave force components is presented in great detail on the basis of wave particle kinematic properties obtained from the linear Airy wave theory. In the procedure of calculating wave forces presented, definitions of the wave reference system for propagating wave, the structure reference system for the platform and the member reference system for the tubular members of the structure are first established, and then the calculation of wave forces is given in terms of its components, which are pressure, acceleration and velocity forces, including current forces. At the end of the paper, expressions of total heave, sway and surge forces and total roll, pitch and yaw moments acting on the platform are given as a sum of these forces acting on each member of the platform. The calculation procedure derived in this paper provides a very efficient means of calculating wave forces and moments during the time-domain simulations of a floating platform experiencing large amplitude motion in intact, progressive flooding and damaged conditions. Comparisons of the predictions with the measurements which will be presented elsewhere reveal that the calculation procedure developed can predict large amplitude oscillatory and steady motion characteristics of an intact and damaged platform in waves with an acceptable degree of accuracy. 相似文献
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1 .IntroductionOffshoreplatformsarelargescalesteelorconcretestructures.Theyexperiencevariouskindsofdamagessuchasdents ,corrosionpits ,cracks ,deformation ,etc .,afteryearsofenvironmentalimpactofwinds ,waves ,currents ,soilreactions ,earthquakesandice (DuanandLiu ,1 995) .Thesafetyofthestructureshasalwaysbeenthemostimportantissueconcerned ,anditdependsontheassessmentoftheintegrityofthestructures,orspecificallyontheassessmentofthedamagesinthestructures .Riclesetal.( 1 994)experimentallyinvestig… 相似文献
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研究门架式水力插板桩的抗倾覆稳定性,以确定其入土深度和工程安全以及工程造价。通过对目前较常用双排桩的稳定性计算分析,提出了1种新的桩土整体抗倾覆稳定计算模型,即将双排桩和桩间土视为1个整体,考虑双排桩桩间土的剪切破坏面随双排桩入土深度的变化,给出了门架式水力插板桩抗倾覆稳定性计算方法。并通过1个实例计算,验证了本文计算方法的可行性和一些有意义的结论。 相似文献
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The large-diameter cylinder structure, which is made of large successive bottomless cylinders placed on foundation bed or partly driven into soil, is a recently developed retaining structure in China. It can be used in port, coastal and off-shore works. The method for stability analysis of the large-diameter cylinder structure, especially for stability analysis of the embedded large-diameter cylinder structure, is an important issue. In this paper, an idea is presented that is, em-bedded large-diameter cylinder quays can be divided into two types, i.e. the gravity wall type and the cylinder pile wall type. A method for stability analysis of the large-diameter cylinder quay of the cylinder pile wall type is developed and a method for stability analysis of the large-diameter cylinder quay of the gravity wall type is also proposed. The effect of sig-nificant parameters on the stability of the large-diameter cylinder quay of the cylinder pile wall type is investigated through numerical calculation. 相似文献
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Jacket cutting operation is one of the most complicated and highest risk operations in the process of decommissioning offshore piled platform, the security and stability of which must be assured. In this paper, the current research on offshore structure removal and jacket cutting is introduced, on the basis of which the types of load along with the load calculation method are determined. The main influences on the stability of a jacket in cutting are analyzed. The experiment test plan is drawn by using orthogonal testing method, and the formula of critical load during the cutting procedure is deduced by differential evolution algorithm. To verify the method and results of this paper, an offshore piled platform to be decommissioned in the South China Sea is taken for an example, and the detailed schedule for jacket cutting is made with the three-dimensional finite element model of the jacket established. The natural frequency, stress, strain and stability of the jacket during cutting process are calculated, which indicates that the results of finite element analysis agree well with that of the deduced formula. The result provides the scientific reference for guaranteeing the safety of jacket in cutting operation. 相似文献
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The parametric instability of a spar platform in irregular waves is analyzed. Parametric resonance is a phenomenon that may occur when a mechanical system parameter varies over time. When it occurs, a spar platform will have excessive pitch motion and may capsize. Therefore, avoiding parametric resonance is an important design requirement. The traditional methodology includes only a prediction of the Mathieu stability with harmonic excitation in regular waves. However, real sea conditions are irregular, and it has been observed that parametric resonance also occurs in non-harmonic excitations. Thus, it is imperative to predict the parametric resonance of a spar platform in irregular waves. A Hill equation is derived in this work, which can be used to analyze the parametric resonance under multi-frequency excitations. The derived Hill equation for predicting the instability of a spar can include non-harmonic excitation and random phases. The stability charts for multi-frequency excitation in irregular waves are given and compared with that for single frequency excitation in regular waves. Simulations of the pitch dynamic responses are carried out to check the stability. Three-dimensional stability charts with various damping coefficients for irregular waves are also investigated. The results show that the stability property in irregular waves has notable differences compared with that in case of regular waves. In addition, using the Hill equation to obtain the stability chart is an effective method to predict the parametric instability of spar platforms. Moreover, some suggestions for designing spar platforms to avoid parametric resonance are presented, such as increasing the damping coefficient, using an appropriate RAO and increasing the metacentric height. 相似文献
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现有服役海洋平台正逐步走向老龄化,海洋平台拆除成为海洋工程新的经济增长点。针对达到服役年限的导管架平台,基于数值分析方法模拟拆除过程,开展平台在不同拆除阶段和环境载荷等参数下的稳定性及影响规律研究。基于钢结构整体稳定性理论,以导管架平台拆除过程中顶点位移为参考,定义导管架平台拆除作业稳定性指标,提出拆除作业阶段划分方法,通过分析导管架平台在不同影响因素作用下拆除过程稳定性响应,给出拆除作业建议。选取我国南海某4裙12腿进行实例分析,结果表明:主桩腿对导管架平台起决定性承载作用,拆除部分主桩腿后需要引入外部支撑力,以保证拆除作业安全进行;拆除构件越多,来浪方向和环境载荷大小对平台影响越加显著。研究结果可为导管架平台拆除作业提供参考。 相似文献
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Structural Types of Sea Embankment and Their Stability Analysis 总被引:1,自引:0,他引:1
MAO Changxi DUAN Xiangbao MAO Peiyu Prof. Senior Engineer Hydraulic Engineering Department Nanjing Hydraulic Research Institute 《中国海洋工程》1998,(3)
In this paper based on investigation on the structural types of sea embankments in thesoutheast coastal area of China,as well as the related tidal stages,waves and strength of marine soils,thefinite element method(FEM)calculations for seepage flow stability,including the overall stability againstsliding and local stability of sloping surface under the action of tidal stage and waves are carried out.Acomparison of the computational results of FEM for single circular slip,composite circular slip andgeogrid reinforcement against sliding shows that for calculation of stability against sliding of marine softsoil foundation it is even more reasonable to use the composite circular slip.The stability of sloping typesea embankment against sliding is slightly better than that of the vertical face type;for the combination ofthree defences(wave,scour and seepage defences)the sea embankment structural type of a compositecross section with a platform should be a good one,but it still should be suitable to local condit 相似文献