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吴俊涛 《船舶标准化工程师》2020,53(2):19-23,60
以某双体甲板运输船为例,使用DNV船级社的SESAM软件对其波浪载荷进行直接计算分析,并对比分析了采用“规范方法”与“直接计算方法”得到的波浪载荷值。结果表明,该双体甲板运输船属于低速排水型船,其波浪载荷的计算方法与高速双体船差别较大,“规范方法”主要适用于高速双体船及尺度较小的低速双体船。对于船长为60m及以上的低速双体船,采用“直接计算方法”更能准确地计算出其波浪载荷。 相似文献
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对双体风机安装船的完整稳性进行了分析,对如何选择稳性衡准和在NAPA软件中的宏语言实现稳性衡准的计算以及双体船进水角的特点进行了研究并给出了双体船进水点的选取建议。 相似文献
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双体穿浪船船体振动特性分析 总被引:4,自引:0,他引:4
针对非常规船型的双体穿浪船,应用整船有限元模型进行了船体总振动和局部振动的计算分析,得到了有别于常规船型的复杂的双体船振动特性,并据此提出了一些双体船的减振对策。 相似文献
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船舶航行时水动力系数求解二维半理论的稳定算法 总被引:4,自引:2,他引:2
给出一种基于高速细长体理论的预报排水型船在波浪上运动水动力求解的数值方法.在该理论的定解条件中,自由面条件是三维的,而控制方程和物面条件则是二维的,所以称为二维半理论.采用二维时域自由面Green函数将定解问题转化为船体切片上的积分方程,进而求解有航速下的船舶水动力问题.重点讨论了水动力计算的稳定算法.对ITTC建议的标准WIGLEY船型作了理论预报,并与DELFT大学的实验结果和用STF切片法的理论预报结果作了比较.比较结果表明,本文提出的二维半理论的预报结果与试验结果相当接近,而计算效率和切片法相当,且大大改善了理论预报的精度. 相似文献
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本文提出了一个预报船体在波浪中大幅运动时非线性水动压力场的二维时域理论。船体扰动势用时域自由面格林函数和在入射波下的瞬时湿表面上的分布源求解;与非线性水动压力场相匹配的船体运动用差分法求得。为提高计算效率和避免数值过程发散,采用了改进的数值模型和方案。通过线性理论计算与模型试验结果的比较,指出了线性切片理论在预报水动压力场时的不足,水动压力与波高的非线性关系及正负水动压力沿船体表面的分布在Wigley船的计算比较中得到了说明。初步计算表明,该理论的实用化发展前景是令有鼓舞的。相应的计算机程序可在PC机上运行。 相似文献
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High speed catamarans are used for pleasure, racing as well as passenger transportations. Optimal design of these crafts requires knowledge of sea loads exerted on their structures. The total load may be estimated by integration of loads exerted on a series of two-dimensional sections along the hull. In order to access the cross-sectional loads, the problem may be simplified to solve the water-entry problem of a twin hull. In this paper, water-entry problem of a twin wedge at constant vertical water-entry speed is studied. The problem is solved in the framework of potential theory using boundary element method where gravity effect on the flow is neglected. A simplified model based on Wagner theory is employed. Free surface elevation and pressure distribution on the body in different deadrise angles have been evaluated. A parametric study has been done to investigate effects of deadrise angle, distance between demi-hulls and free surface elevation on maximum pressure coefficient. Finally, a regression formula for maximum pressure coefficient has been proposed. Results of parametric study reveal that as time advances the interaction between two demi-hull gets more severe, besides the interaction effect on pressure coefficient is nonlinear. 相似文献
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ZHANG Heng LI Ji-de 《船舶与海洋工程学报》2007,6(3):39-45
A new method improves prediction of the motion of a hybrid monohull in regular waves. Stem section hydrodynamic coefficients of a hybrid monohull with harmonic oscillation were computed using the Reynolds Averaged Navier-Stokes Equations (RANSE). The governing equations were solved using the finite volume method. The VOF method was used for free surface treatment, and RNGК-ε turbulence model was employed in viscous flow calculation. The whole computational domain was divided into many blocks each with structured grids, and the dynamic process was treated with moving grids. Using a 2-D strip method and 2.5D theory with the correction hydrodynamic coefficients allows consideration of the viscous effect when predicting longitudinal motion of a hybrid monohull in regular waves. The method is effective at predicting motion of a hybrid monohull, showing that the viscous effect on a semi-submerged body cannot be ignored. 相似文献
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CFD理论黏性流场中三维振动水翼的非定常水动力性能(英文) 总被引:1,自引:0,他引:1
The motion of the fins and control surfaces of underwater vehicles in a fluid is an interesting and challenging research subject.
Typically the effect of fin oscillations on the fluid flow around such a body is highly unsteady, generating vortices and
requiring detailed analysis of fluid-structure interactions. An understanding of the complexities of such flows is of interest
to engineers developing vehicles capable of high dynamic performance in their propulsion and maneuvering. In the present study,
a CFD based RANS simulation of a 3-D fin body moving in a viscous fluid was developed. It investigated hydrodynamic performance
by evaluating the hydrodynamic coefficients (lift, drag and moment) at two different oscillating frequencies. A parametric
analysis of the factors that affect the hydrodynamic performance of the fin body was done, along with a comparison of results
from experiments. The results of the simulation were found in close agreement with experimental results and this validated
the simulation as an effective tool for evaluation of the unsteady hydrodynamic coefficients of 3-D fins. This work can be
further be used for analysis of the stability and maneuverability of fin actuated underwater vehicles. 相似文献
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简单Green函数法求解三维水动力系数 总被引:1,自引:1,他引:0
本文提出用简单Green函数1/r求解无航速的三维物体在水面、水下或在无界域中作各向振荡时水动力系数的数值方法。对于无穷远处扩散条件转换成辐射面条件的问题作了专门的考虑,即用圆柱将物体包围在其内部,该圆柱将流场分成内、外两部分,外部域中速度势的特征函数展开式与内部域中用Green公式求得的解相匹配。 根据本计算方法编制的程序对一些典型情况作了试算,其中包括在水面振荡的半球、方盒和圆盘的水动力系数曲线;水面及水底对圆球水动力系数的影响等。为考核本方法,与其它计算方法得到的结果作了比较。对方盒的三维结果与切片法作了比较。 相似文献