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针对国际海事组织(IMO)正在制定的船舶第二代完整稳性衡准中的纯稳性丧失直接评估衡准,本文提出了纵荡-横荡-横摇-首摇4自由度运动耦合的标准数学模型,进行了纯稳性丧失直接评估.该方法首先基于MMG操纵性标准方法,构建纵荡-横荡-横摇-首摇4自由度运动方程,同时考虑了舵控制方程,其次在纵荡、横荡、横摇、首摇方程右边考虑时域波浪力/力矩,且横摇方程右边进一步考虑了粘性横摇阻尼力矩和波浪中复原力臂变化.最后采用ONR内倾船进行了尾斜浪中纯稳性丧失直接数值计算,为纯稳性丧失直接稳性评估衡准的应用奠定了基础. 相似文献
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船舶内共振动力学行为的研究 总被引:5,自引:0,他引:5
本文考虑船舶横摇与纵摇的非线性耦合运动,采用摄动分析及数值计算方法,研究了船舶存在内共振时的非线性动力学行为。研究表明,船舶非线性运动的重要特征是响应不对称、调幅调相及饱和等现象,为揭示船舶在高海情下的倾覆机理奠定了基础。 相似文献
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Yeon-Gyu Kim Sun-Young Kim Hyoung-Tae Kim Seok-Won Lee Byeong-Seok Yu 《Journal of Marine Science and Technology》2007,12(3):130-138
The maneuvering characteristics of a large container ship with twin propellers and twin rudders were investigated using the
horizontal planar motion mechanism (HPMM) test and computer simulation. A mathematical model for maneuvering motion with four
degrees of freedom (DOF) for twin-propeller and twin-rudder systems was developed and included the effects of roll motion.
To obtain the roll-coupling hydrodynamic coefficients of a container ship, a four-DOF HPMM system having a roll motion mechanism
and a roll moment measurement system was used. At the full load condition, HPMM tests were carried out for two different 12 000-TEU
container ship models, one with twin propellers and the other with a single propeller. Using the hydrodynamic coefficients
obtained from the tests, computer simulations were carried out. Simulation results for the container ship with twin propellers
and twin rudders were compared with the results for the container ship with a single propeller and single rudder. 相似文献
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Analysis of the dynamic response of ships in accident scenarios requires a realistic idealisation of environmental and operational conditions by multi-physics models. This paper presents a procedure that simulates the influence of strongly coupled FSI effects on the dynamic response of ships involved in typical collision and grounding events. Our method couples an explicit 6-DoF structural dynamic finite element scheme with a hydrodynamic method accounting for (a) 6-DoF potential flow hydrodynamic actions; (b) the influence of evasive ship speed in the way of contact and (c) the effects of hydrodynamic resistance based on a RANS CFD model. Multi-physics simulations for typical accident scenarios involving passenger ships confirm that suitable FSI modelling may be critical for either collision or grounding events primarily because of the influence of hydrodynamic restoring forces. 相似文献
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Ship impact against offshore floating wind turbine (OFWT) has been identified as one of the major hazards with the development of OFWTs. The dynamic responses of OFWTs under ship impact should be taken into consideration during the design phase. This paper addresses a study on the dynamic responses of an OFWT in ship collision scenarios. Firstly, a mathematical model for external mechanism of ship-OFWT collision scenario is developed. Secondly, this model is combined with an in-house programme, DARwind, which can be used to predict nonlinear dynamic responses of whole OFWT system in time-domain. With the newly combined analysis tool, simulation cases for different scenarios are conducted to investigate the nonlinear dynamic responses of OFWT system, including the cases of still water condition, wave-only condition and wind-wave condition. It is shown that in still water condition, the ship impact will more obviously change the responses of motions and mooring system, compared with those in wave and wave-wind conditions. In the wave-only condition, these motions responses of platform are suppressed by wave effect, but the tower vibration and tower top deformation are sensitive to ship collision. For the wave-wind combined condition, the motions increment in surge and pitch due to ship collision becomes smaller than that of wave-only condition, but yaw motion has a considerable variation compared with those of the other two conditions. Additionally, the blade tip deformation increment due to ship collision are analyzed and it is found that the edgewise tip deformation got more obvious increment than that of flapwise. To further asses the safety of OFWT, the acceleration at nacelle are analyzed because some equipment might be sensitive to acceleration. The analysis results indicate that even though the OFWT structure doesn't get critical damage by ship impact, the equipment inside may still fail to work due to the high value of acceleration induced by ship impact. The research outcomes can benefit the safety design of OFWT in the engineering practice. 相似文献
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Grounding experiments on soft bottoms 总被引:3,自引:0,他引:3
To verify a theoretical analysis procedure for calculation of the hull girder response of ships running aground, a series
of large-scale ship grounding experiments was performed on an artificial island made of engineered fill. The tests were conducted
by running a condemned fishing vessel up on selected beaches of the island with velocities ranging between 2m/s and 5.5m/s.
During the tests, surge, heave, and pitch accelerations were measured and also the deformations of the beach and the ship
bow. Based on these accelerations, rigid body velocities and motions were determined. The forces arising from the interaction
between the bow of the vessel and the seabed were determined by solving the equations of motions. This article describes the
analysis of the measured results and a comparison of the results from the full-scale measurements with results from a recently
developed analysis procedure for grounding on soft bottoms.
Presented at the International Conference on Technology for Marine Environment Preservation (MARIENV '95), Tokyo, Japan, September
24–29, 1995. 相似文献
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This paper provides a new contribution to the analytical treatment of ship grounding accidents. New formulations are proposed to assess the resisting force of outer/inner bottom plating and transverse floors when the vessel undergoes combined surge and heave motions during the grounding event. Considering shallow and sharp rocks described by parabolic functions, analytical solutions are derived from plastic limit analysis and validated by comparison to non-linear finite element simulations. A failure criterion is also proposed to trigger the rupture of the bottom plating and all the derived closed-form expressions are implemented into an in-house solver. The solver is then coupled to a 6-DOFs external dynamics program, which allows to account for the action of the surrounding water. Resulting tool is first validated on a full scale cruise ship by comparison to finite element results. It appears than although some discrepancies arise, especially in the response of transverse floors after rupture, the bottom damage distribution seems to be well predicted. Finally, the developed tool is used to quickly predict the grounding response of different types of ships and the influence of their mass and hydrodynamic properties on the damage extent is investigated. 相似文献
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Pablo M. Carrica Farzad Ismail Mark Hyman Shanti Bhushan Frederick Stern 《Journal of Marine Science and Technology》2013,18(2):166-181
Unsteady Reynolds averaged Navier–Stokes (URANS) computations of standard maneuvers are performed for a surface combatant at model and full scale. The computations are performed using CFDShip-Iowa v4, a free surface solver designed for 6DOF motions in free and semi-captive problems. Overset grids and a hierarchy of bodies allow the deflection of the rudders while the ship undergoes 6DOF motions. Two types of maneuvers are simulated: steady turn and zigzag. Simulations of steady turn at 35° rudder deflection and zigzag 20/20 maneuvers for Fr = 0.25 and 0.41 using constant RPM propulsion are benchmarked against experimental time histories of yaw, yaw rate and roll, and trajectories, and also compared against available integral variables. Differences between CFD and experiments are mostly within 10 % for both maneuvers, highly satisfactory given the degree of complexity of these computations. Simulations are performed also with waves, and with propulsion at either constant RPM or torque. 20/20 zigzag maneuvers are simulated at model and full scale for Fr = 0.41. The full scale case produces a thinner boundary layer profile compared to the model scale with different reaction times and handling needed for maneuvering. Results indicate that URANS computations of maneuvers are feasible, though issues regarding adequate modeling of propellers remain to be solved. 相似文献
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《船舶与海洋工程学报》2018,(3)
Since the research of flare slamming prediction is seldom when parametric rolling happens, we present an efficient approximation method for flare slamming analysis of large container ships in parametric rolling conditions. We adopt a 6-DOF weakly nonlinear time domain model to predict the ship motions of parametric rolling conditions. Unlike previous flare slamming analysis, our proposed method takes roll motion into account to calculate the impact angle and relative vertical velocity between ship sections on the bow flare and wave surface. We use the Wagner model to analyze the slamming impact forces and the slamming occurrence probability. Through numerical simulations, we investigate the maximum flare slamming pressures of a container ship for different speeds and wave conditions. To further clarify the mechanism of flare slamming phenomena in parametric rolling conditions, we also conduct real-time simulations to determine the relationship between slamming pressure and 3-DOF motions, namely roll, pitch, and heave. 相似文献
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A conceptual design framework for collision and grounding analysis is proposed to evaluate the crashworthiness of double-hull structures. This work attempts to simplify the input parameters needed for the analysis, which can be considered as a step towards a design-oriented procedure against collision and grounding. Four typical collision and grounding scenarios are considered: (1) side structure struck by a bulbous bow, (2) side structure struck by a straight bow, (3) bottom raking, (4) bottom stranding. The analyses of these scenarios are based on statistical data of striking ship dimensions, velocities, collision angles and locations, as well as seabed shapes and sizes, grounding depth and location. The evaluation of the damage extent considers the 50- and 90-percentile values from the statistics of collision and grounding accidents. The external dynamics and internal mechanics are combined to analyse systematically the ship structural damage and energy absorption under accidental loadings. 相似文献
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基于RANS和非线性动力学方法的海洋平台供应船水舱减摇预报 总被引:1,自引:0,他引:1
在探讨带平面被动式减摇水舱的海洋平台工作船在横浪中的减摇问题上,采用RANS方法进行船舶和水舱的强迫运动模拟,通过数值处理得到船舶和水舱的水动力系数。假设在共振频率下船舶和水舱的横摇运动在达到稳态后可以解耦,由非线性动力学的方法求解船舶横摇运动,并在波浪中进行系列模型试验以研究减摇特性。海洋平台工作船具有多工况的特点,不同载况对应不同船舶固有周期,实际航行中对减摇水舱的使用就是通过改变水舱水深使水舱的周期等于船舶固有周期,而通过上述方法的快速计算,选择合适的水深和阻尼隔板可以达到理想的减摇效果。结论表明该方法可以预报不同方案下的船舶横摇运动,该思路在船舶的减摇水舱设计阶段可以提供参考价值,并且在实船航行中可以提供水深加载指导以适应复杂的多工况航行。文中研究结果被运用于一艘实船航行时水舱加水策略中。 相似文献
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Ship motion, with six degrees of freedom, is a complex stochastic process. Sea wind and waves are the primary influencing factors. Prediction of ship motion is significant for ship navigation. To eliminate errors, a path prediction model incorporating ship pitching was developed using the Gray topological method, after analyzing ship pitching motions. With the help of simple introduction to Gray system theory, we selected a group of threshold values. Based on an analysis of ship pitch angle sequences over 40 second intervals, a Grey metabolism GM(1,1) model was established according to the time-series which every threshold corresponded to. Forecasting future ship motion with the GM (1,1) model allowed drawing of the forecast curve with effective forecasting points. The precision of the test results show that the model is accurate, and the forecast results are reliable. 相似文献
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随着航运业的快速发展,海上航行的船舶越来越多.尽管人们做了许多努力避免海上意外事故的发生,但海难事故依然不可避免.为了降低上述事故造成的损失,需要在设计阶段快速并准确地预报船舶的结构耐撞性.本文以强桁材结构为研究对象,通过开展准静态冲压试验及相应的数值仿真,分析强桁材结构在面内冲压载荷作用下的变形机理,并基于试验与仿真所得到的结构变形特点,提出强桁材面内受压时的变形模式.以此为基础,运用塑性力学理论,推导出结构变形能、瞬时结构变形抗力及平均结构变形抗力的解析预报公式,并将计算结果与试验结果进行比较验证.研究得到的结构面内受压变形能和抗力解析计算公式,可以快速评估事故载荷下结构的响应情况,包括结构变形阻力及能量耗散,具有使用方便,计算速度快,计算结果相对可靠的优点,对船体耐撞结构设计及抗撞性能评估具有一定的指导意义. 相似文献
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操纵性相关性分析一直以来是受到国内外学者的关注,但是由于其复杂性,至今未能很好地解决.目前,模型试验的数据往往是直接预报到实船的操纵性能,这有可能导致很大的偏差,影响船舶的航行安全.本文针对育鲲轮,进行了实船试验与模型试验的相关性分析.首先进行了实船回转试验和z形试验,测试了该船的操纵性.通过试验数据分析获得了纵距、横距、战术直径、回转直径、超越角等操纵性特征参数,试验过程中也进行了船舶姿态,如纵、横摇以及主机功率的测试.通过实船回转试验发现,主机功率比直航时增大了大约15%,这给船舶设计提供了参考.然后,采用6m长左右的模型也进行了相同试验的测试,电机转速与实船主机转速相似,且一直保持不变.最后,分析比较了模型所测数据与实船数据,发现特征参数误差基本都在10%以内.说明模型长度、螺旋桨的模拟等模型试验方案基本可行. 相似文献
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Even in relatively calm waters, low amplitude wave-induced motions of an LNG carrier may induce large amplitude liquid sloshing inside the ship's partially filled tanks, and the interaction between ship motions and sloshing may affect the ship's seekeeping properties. A computational procedure, here referred to as the RANS-RANS method, was developed to account for this interaction, and this method was then employed to predict the free surface flow inside the tanks and the corresponding motions of the ship in regular head and beam waves. This method coupled a compressible VoF technique with a generic wave generation and absorption scheme to obtain wave-induced ship motions with and without considering the effects of sloshing in the ship's tanks. Systematic grid studies were performed to obtain a sufficiently fine grid needed to yield converging predictions. The resulting wave patterns, ship motions, and internal sloshing elevations were compared with results obtained from a computational method, here referred to as the RANS-BEM method, that relied on a boundary element method to obtain ship motions. This RANS-RANS method was validated against model test measurements. 相似文献