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基于STAR-CCM+软件对安装首固定翼的无人艇在顶浪规则波条件下的运动响应和波浪推进航速进行研究。利用DFBI模块建立了波浪推进艇的数学模型,应用SST k-ω模型,结合VOF方法,对波浪推进艇在不同周期和波高条件下的运动响应进行数值仿真,得出波浪推进艇垂荡和纵摇运动频率响应函数(RAO)及航行速度。研究结果表明:随着波高的增大,水翼产生的推力逐渐增大;艇体的垂荡运动响应受波高影响较小,艇体纵摇运动响应由于水翼产生的阻尼效应随着波高增大而逐渐减小;波浪推进艇航行速度随着波高增大先增加而后迅速减小。 相似文献
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浅水FPSO垂荡和纵摇运动的低频响应 总被引:1,自引:0,他引:1
对软刚臂系泊FPSO在浅水不规则波作用下的垂荡和纵摇运动响应进行数值计算与模型试验研究,水深16.7 m.试验中的波浪校验结果显示,在波浪谱中出现明显低频长波成分.计算结果与试验结果均显示,垂荡和纵摇波浪力、运动响应既有传统的波频成分,也出现显著低于波浪频率的低频成分,而且低频响应的能量和幅值甚至会远大于波频响应.垂荡和纵摇运动的低频响应不具有能量集中的共振频率,而是具有较宽的低频能量分布.这种显著低频响应的出现,与浅水中低频长波的存在有关,表明其不仅对系泊FPSO水平面运动性能影响极大,也会显著影响垂荡和纵摇这类垂直面运动的波浪力和运动响应,在理论预报时需要予以重视. 相似文献
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船舶在波浪中的响应一直被船舶工程师广泛关注。本文以Wigley船为对象,采用线性回归计算船舶在规则波中运动的附加质量,采用刘易斯法计算阻尼系数。以新切片理论为基础建立和求解频域内的垂荡和纵摇的耦合运动方程,得到船舶在频域中的运动响应和波浪载荷,并与三维网格法的计算结果进行比较,表明这是一种可靠的、简单快捷的计算船舶在波浪中响应的方法。 相似文献
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基于RANS方程和VOF模型求解船体粘性兴波流场,开展了小水线面双体船(Small Waterplane Area Twin Hulls,SWATH)迎浪规则波中纵向运动及波浪载荷的非线性特性研究.通过数值计算结果与模型试验结果的对比分析,验证了文中方法的有效性;在此基础上,较为系统地分析了SWATH船的垂荡及纵摇运动响应、垂向加速度和波浪载荷的一阶及二阶量随入射波高的变化规律,指出SWATH船的运动响应及载荷与波高存在非线性的关系,尤其体现在响应共振区附近;相比于船体垂荡和纵摇运动,垂向加速度及波浪载荷的非线性特性更为显著. 相似文献
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为应对"能效运营指标(EEOI)自愿应用导则",提出了在航行中采用调节纵倾的方法,降低营运能耗。选取了3100TEU集装箱船作为研究对象,应用Rankine源自由面势流理论计算不同纵倾下船舶兴波阻力系数以及总阻力系数,应用三维面元法计算了规则波中的波浪增阻,并针对实海域进行了増阻预报。研究表明,一定的艉倾能减小兴波阻力和总阻力。通过实海域増阻预报,服务航速下采用艉倾0.4°的纵倾航行会使波浪増阻增加4.21%,但总阻力仍能减少3.38%,较有效地降低了EEOI值。 相似文献
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针对在改善高速轻型穿浪双体船(WPC)迎浪中波长与船长接近时纵向运动幅度较大的缺点,采用了理论计算与模型试验相结合的方法,对250 t级穿浪双体船开展了水翼改善纵向运动的理论和试验研究,分析了水翼形式、尺度和安装位置等对纵向运动的影响规律。数值计算和试验结果的比较表明,计及水翼—船体水动力干扰影响的切片理论可满足WPC加水翼后波浪中纵向运动计算的需要,但在纵向运动响应峰值处数值计算结果偏高。模型试验表明,250 t级WPC加装水翼后,迎浪纵摇和垂荡有义幅值可减少20%~30%。 相似文献
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为了快速预报一艘65 m的围网渔船在任意载况规则波中横摇运动频率响应函数及不规则波中各海况下的横摇角有义值,应用神经网络的原理和算法,以该船7种实际航运载况的耐波性计算数据为训练样本,建立满足精度要求的围网渔船横摇运动神经网络预估模型。并分析吃水、重心高度、航速和浪向对横摇运动的影响。该模型可应用于风浪中船舶航行安全性评估。 相似文献
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Evaluation of added resistance in regular incident waves by computational fluid dynamics motion simulation using an overlapping grid system 总被引:2,自引:0,他引:2
A computational fluid dynamics simulation method called WISDAM-X was developed to evaluate the added resistance of ships in waves. The Reynolds-averaged Navier–Stokes (RANS) equation was solved by the finite-volume method and a MAC-type solution algorithm. An overlapping grid system was employed to implement rigorous wave generation, the interactions of ships with incident waves, and the resultant ship motions. The motion of the ship is simultaneously solved by combining the solution of the motion of the ship with the solution of the flow about the ship. The free surface is captured by treatment by the density-function method. The accuracy of WISDAM-X is examined by a comparison with experimental data from a container carrier hull form, and shows a fairly good agreement with respect to ship motion and added resistance. Simulations were also conducted for a bow-form series of a medium-speed tanker to examine the effectiveness of the WISDAM-X method as a design tool for a hull form with a smaller resistance in waves. It was confirmed that the WISDAM-X method can evaluate the added resistance with sufficient relative accuracy and can be used as a design tool for ships. 相似文献
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为分析波浪对船舶快速性和耐波性的影响,必须对波浪中航行的船舶阻力增值进行准确预报。本文基于计算流体力学软件FINE/Marine建立了Wigley船模的数值模型,对不同规则波波长下的船体运动和波浪增阻进行了计算,并与试验结果进行对比,验证了数值模型的可行性与准确性。同时计算分析了船舶在规则波中航行时的波浪增阻与浪向之间的变化关系。通过研究发现:随着浪向角的增大船舶波浪增阻逐渐增加,在60°浪向角时波浪增阻达到最大值,浪向角对波浪增阻的影响较大。本文的研究方法可用于船舶有航速下的不同浪向波浪增阻的数值预报。 相似文献
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[Objective]To investigate ship motion and load responses in realistic 3D waves and overcome the limitations of the traditional 2D wave assumption, this paper develops a method for predicting ship motion and load responses in short-crested waves. [Method]The long- and short-term responses of ship motion and load in long- and short-crested waves are numerically predicted using the spectral analysis and statistical probability methods, respectively. The influence of directional function on ship response is also numerically analyzed. Moreover, tank model tests and a large-scale model sea trial are comparatively conducted to validate the difference between ship response and statistics in long- and short-crested irregular waves. [Results]The results show that when navigating against the waves in the same sea condition, the long-crested wave assumption overestimates the statistical mean value of ship load response, but underestimates extreme load in real seas. For long-crested waves, the ship motion and acceleration power spectrum is concentrated around a certain frequency band. [Conclusion]Ship motion and load responses in realistic 3D waves are significantly different from those in 2D long-crested waves. The directional function of short-crested waves also has a significant effect on ship motion and load responses. © 2023 The Author(s). 相似文献
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横向规则波作用下的船舶倾覆 总被引:1,自引:0,他引:1
运用安全池理论研究了某近海干货船在横向规则波作用下的船舶倾覆问题.用阿当姆斯预估-校正法数值求解时域内单自由度非线性横摇方程.采用三维格林积分方程法计算水动力系数的频域特性.分析了非线性横摇方程中势流阻尼、非线性阻尼以及在横向规则波作用下波高和频率对安全池的影响. 相似文献