海洋声传播二维PE算法对海底边界条件的改进处理     

刘进忠  李琪 《中国海洋大学学报(自然科学版)》2002,32(3):469-474

运用海洋声传播二维 PE算法对不规则海底边界条件的处理 ,作者提出 1种改进方法 ,即利用抛物方程和界面边界条件 ,对界面附近的抛物方程的差分形式进行修正 ,以考虑复杂海底边界的影响。通过实际的数值计算表明 ,运用该方法计算声场 ,在提高计算精度方面起到有益的作用。  相似文献   

考虑边界波浪方向的缓坡方程自适应求解模型     

柳淑学  孙冰 《海洋工程》2007,25(1):35-42,56

缓坡方程是描述近岸波浪运动较好的数学模型之一。在发展的自适应有限元求解缓坡方程的基础上,采用迭代求解的方法,确定波浪相对于边界的入射方向,从而对边界条件进行改进,建立了求解缓坡方程的数值计算模型。典型算例表明,考虑波浪相对于边界的入射角度后,模型可以更好地模拟吸收波浪边界,同时对多向波对双突堤的绕射进行了模拟研究,与试验结果比较表明,所建立的数值计算模型能够适用于多向不规则波传播过程的模拟研究。  相似文献   

用抛物型方程求解波浪折射的数值计算     

孙大鹏 《海洋通报》1993,12(6):8-13

据微幅波理论导出的波动方程是椭圆型的，数值计算比较复杂，但若以抛物型方程近似取代椭圆型的波方程，那么数值计算将会简单得多。本文将就抛物型方程建立波浪折射的数值计算模型式。  相似文献   

非结构化网格下椭圆型缓坡方程的数值求解   总被引：4，自引：4，他引：0       下载免费PDF全文

魏美芳  唐军  沈永明 《海洋学报》2009,31(2):159-164

椭圆型缓坡方程是一种用线性波浪理论研究近岸波浪传播变形的有效波浪数学模型。非结构化网格下的有限容积法不仅对复杂边界的适应性好,还能保证迭代求解过程的守恒性。建立了非结构化网格下的椭圆型缓坡方程数值模型。在模型中采用非结构化网格下的有限容积法对椭圆型缓坡方程进行了数值离散,结合GPBiCG(m,n)算法求解离散方程。数值计算结果表明,该数值模型可有效地用于模拟近岸缓坡区域复杂边界下波浪的传播。  相似文献   

任意曲线边界条件下缓变水深水域波浪传播的数值模拟   总被引：3，自引：0，他引：3  

张洪生  洪广文  丁平兴 《海洋学报》2002,24(1):108-116

缓坡方程被广泛地应用于描述波浪的传播变形计算,目前一般采用矩形网格求解.将计算域剖分为任意四边形网格,以格林公式为基础,在变量沿单元边界线性变化的假定下,对双曲型的波能守恒方程、波数矢无旋性方程进行离散,同时通过等参单元变换推求节点偏导数值以离散椭圆型光程函数方程,从而建立了任意曲线边界条件下缓变水深水域波浪传播的数值模拟模型.将模型应用于平行直线型等深线地形,并将计算域剖分为不规则四边形网格,对不同入射角、底坡、波高等多种组合情况比较了数值解与解析解,结果表明两者一致.应用于复杂边界的实例,数值模拟结果与物模实验值基本吻合.  相似文献   

非线性波浪时域计算的三维耦合模型   总被引：3，自引：1，他引：2  

齐鹏  王永学  邹志利  邱大洪 《海洋学报》2000,22(6):102-109

将计算区域Ω划分为内域Ω₁和外域Ω₂(Ω₂=Ω-Ω₁),外域控制方程采用改进线性频散特性的二维Boussinesq方程,用预报一校正法数值求解;结构物附近的内域控制方程为三维Navier-Stokes方程,由VOF方法数值求解。通过在外域和内域相匹配的交界面上设置合适的速度和波面边界条件,建立了三维非线性波浪时域计算的耦合模型。模拟试验表明:(1)耦合模型数值波浪水池可以产生稳定的、重复性较好的波动过程;(2)用耦合模型数值波浪水池求解较大浅水区域上的非线性波浪数值计算问题可以取得较高的计算效率,同时又能得出结构物附近的复杂流场。  相似文献   

基于SPH-ALE方法的浮力摆水动力数值模拟     

李雪临  路宽  王静  韩林生  石建军  王花梅  朱锐 《海洋技术学报》2016,(6):54-58

基于光滑粒子流体动力学-任意拉格朗日欧拉(SPH-ALE)方法建立二维数值波浪水槽,在控制方程中引入近似黎曼解替代人工黏性,采用排斥力边界条件防止流体粒子穿透固边界,采用指数型衰减函数设置海绵层以消除水槽末端的波浪反射。应用所建立的数值模型对规则波传播及其与浮力摆摆板的相互作用进行了水动力数值模拟,结果表明:文中SPH-ALE模型能够较精确地模拟波浪传播,合理地复现波浪与浮力摆摆板相互作用的物理过程。  相似文献   

抛物型缓坡方程的变分及数值模拟   总被引：1，自引：0，他引：1  

林钢  邱大洪 《海洋学报》2000,22(1):125-130

对线性水波的折射一绕射问题应用变分原理,对非等深、具有缓坡和不连续的底被导出了一种修改的抛物型缓坡方程近似模型,可预测三维地形上波浪的折射一绕射。同抛物型缓坡方程的线性方程进行了对比。通过数值模拟方法进行数值求解,表明本方法可用于地形条件下的波浪折射一绕射问题。  相似文献   

引水工程复杂水流的二、三维嵌套数值模拟     

尹则高  SHI Bing  姜成堃  ZHAO Lin 《中国海洋大学学报(自然科学版)》2008,38(4)

建立宽浅河道与管道水流的二、三维嵌套的数学模型,对基本的控制方程、方程的数值离散格式和求解方法、嵌套连接和初始边界条件等问题进行研究.利用上述方法对某工程实例进行计算,在宽广水域上给出了水力要素的平面分布,在复杂边界强三维流动的计算区域得到其三维运动特性.计算结果与实验资料进行了比较,两者吻合较好,说明嵌套连接的二、三维数学模型是解决某些实际工程问题的一种可靠的和有效的工具.  相似文献   

适用于曲边界的浅水非线性波浪数值模型     

张俊生  滕斌 《海洋工程》2015,33(3):1-9

实际工程中存在大量的曲边界,因此在曲边界上的计算准确性可以考察出一个数值模型的实用价值。利用Beji的改进型Boussinesq方程建立了一个有限元方法的数值波浪模型。造波方面采用Fenton提出的非线性规则波浪解;在墙边界处,以求解法线方向和切线方向的速度和导数代替求解x、y方向的速度和导数,从而使边界条件直接适用、严格满足,保证了对曲边界计算的准确性。"重开始广义极小残量法"的使用保证了求解方程组的效率和精度,使造波和边界处理方法的有效性和准确性得到了合理地诠释。通过与试验数据、他人数值结果、解析解的比对,显示出该模型计算稳定、结果准确,真正体现出了有限元方法对曲边界适用的优势。  相似文献   

港域波浪数学模型的改进与验证   总被引：2，自引：0，他引：2  

潘军宁  左其华  王登婷 《海洋工程》2008,26(2):34-43

通过物理模型对改进的港内波浪传播变形数学模型进行验证。该数学模型以推广的时变缓坡方程为控制方程,采用含松弛因子的ADI法求解,并对波浪反射和透射边界模拟方法进行改进。先通过物理模型试验确定斜向浪入射条件下抛石防波堤前的波浪反射系数,作为数学模型中部分反射边界模拟的依据。然后进行了一个典型港口内波浪折射、绕射和反射的模型试验,测量港内波浪分布。对比模型试验和数学模型计算的结果表明,数学模型可较好地模拟港内复杂地形和边界条件下规则波和不规则波的传播变形。  相似文献   

Verification of A Numerical Harbour Wave Model     

潘军宁  洪广文  左其华  王登婷 《中国海洋工程》2007,21(4):647-658

A numerical model for wave propagation in a harbour is verified by use of physical models.The extended time-dependent mild slope equation is employed as the governing equation,and the model is solved by use of ADI method containing the relaxation factor.Firstly,the reflection coefficient of waves in front of rubble-mound breakwaters under oblique incident waves is determined through physical model tests,and it is regarded as the basis for simulating partial reflection boundaries of the numerical model.Then model tests on refraction,diffraction and reflection of waves in a harbour are performed to measure wave height distribution.Comparative results between physical and numerical model tests show that the present numerical model can satisfactorily simulate the propagation of regular and irregular waves in a harbour with complex topography and boundary conditions.  相似文献   

Numerical implementation of the harmonic modified mild-slope equation     

《Coastal Engineering》2005,52(5):391-407

A numerical solver is presented of the modified time-independent mild-slope equation, which incorporates energy dissipation. Using a second-order parabolic approximation, the following external boundary conditions are modelled: open and fully transmitting to both incoming and outgoing waves; partially reflecting, and; fully absorbing. Discretisation of the governing equation and boundary conditions is by means of a second-order accurate central difference scheme. The resulting sparse-banded matrix is solved using an inexpensive banded solver with Gaussian elimination. The numerical predictions are in excellent agreement with the analytical solution for the interaction of non-breaking waves with an array of vertical surface-piercing circular cylinders on a horizontal bed. Results are compared with those for the same array on various seabed topographies. The model is robust and can be used for wave propagation in complex geometries. It has fewer restrictions associated with wave obliqueness at boundaries than traditional models based on the mild-slope equation.  相似文献   

Spectral wave transformation model for simulating refraction-diffraction with strongly reflecting coastal structures   总被引：1，自引：0，他引：1  

ZHENG Jinhai  NGUYEN Viet Thanh  ZHANG Chi 《海洋学报(英文版)》2011,30(2):25-32

On the basis of the wave action balance equation which incorporates refraction, diffraction, reflection and wave-current interaction, a directional spectral wave transformation model WABED is developed for predicting the irregular wave refraction-diffraction with strongly reflecting structures in coastal regions. In the model, diffraction is taken into account by introducing a term formulated from a parabolic approximation wave equation, and reflection is calculated through a back-marching numerical approach at the reflecting boundary. Two experimental data sets are used to examine the performance of present model with regard to wave characteristics around reflecting coastal structures. One is from a physical experiment at idealized inlet with parallel jetties, while the other is from a laboratory study on a coastal project of the concave breakwater. Reasonably good agreements are found for both cases, revealing the applicability of the present model for predicting combined wave refraction-diffraction processes with strongly reflecting coastal structures.  相似文献   

On Radiation Boundary Conditions and Wave Transformation Across the Surf Zone     

许泰文  温志中 《中国海洋工程》2001,(3):395-406

The purpose of this paper is to extend the validity of Li's parabolic model (1994) by incorporating a combined energy factor in the mild-slope equation and by improving the traditional radiation boundary conditions. With wave breaking and energy dissipation expressed in a direct form in the equation, the proposed model could provide an efficient numerical scheme and accurate predictions of wave transformation across the surf zone. The radiation boundary conditions are iterated in the model without use of approximations. The numerical predictions for wave height distributions across the surf zone are compared with experimental data over typical beach profiles. In addition, tests of waves scattering around a circular pile show that the proposed model could also provide reasonable improvement on the radiation boundary conditions for large incident angles of waves.  相似文献   

A numerical model for wave propagation in curvilinear coordinates     

《Coastal Engineering》2005,52(6):513-533

Using the perturbation method, a time dependent parabolic equation is developed based on the elliptic mild slope equation with dissipation term. With the time dependent parabolic equation employed as the governing equation, a numerical model for wave propagation including dissipation term in water of slowly varying topography is presented in curvilinear coordinates. In the model, the self-adaptive grid generation method is employed to generate a boundary-fitted and varying spacing mesh. The numerical tests show that the effects of dissipation term should be taken into account if the distance of wave propagation is large, and that the outgoing boundary conditions can be treated more effectively by introduction of the dissipation term into the numerical model. The numerical model is able to give good results of simulating wave propagation for waters of complicatedly boundaries and effectively predict physical processes of wave propagation. Moreover, the errors of the analytical solution deduced by Kirby et al. (1994) [Kirby, J.T., Dalrymple, R.A., Kabu, H., 1994. Parabolic approximation for water waves in conformal coordinate systems. Coastal Engineering 23, 185–213.] from the small-angle parabolic approximation of the mild-slope equation for the case of waves between diverging breakwaters in a polar coordinate system are corrected.  相似文献   

Modelling linear wave transformation induced by dissipative structures—Regular waves     

R. Silva  E. Mendoza  M.A. Losada 《Ocean Engineering》2006,33(16):2150-2173

A numerical model of the modified time-independent mild-slope equation for linear waves over a rapidly changing finite porous bed is presented. In this solution the reflection and phase coefficient shift are solved implicitly. Boundaries are assumed to be open, partially reflecting, or fully absorbing through the second-order parabolic approximation. Discretisation of the governing equation and boundary conditions is by means of a second-order accurate central difference scheme. The resulting sparse-banded matrix is solved using an inexpensive banded solver with Gaussian elimination. The model has been validated and the numerical predictions are in excellent agreement with analytical solutions.  相似文献   

Numerical Modeling of Wave Diffraction-Refraction in Water of Varying Current and Topography   总被引：3，自引：1，他引：2  

FENG Weibing 《中国海洋工程》2000,14(1):45-58

—A numerical model for wave diffraction-refraction in water of varying current and topogra-phy is proposed,and time-dependent wave mild-slope equation with a dissipation term and correspondingequivalent governing equations are presented.Two different expressions of parabolic approximations forthe case of the absence of current are also given and analyzed.The influence of current on the results ofsimulation of waves is discussed.Some examples show that the present model is better than others in simu-lating wave transformation in large water areas.And they also show that the influence of current shouldbe taken into account,on numerical modeling of wave propagation in water of strong current and coastalareas,otherwise the modeling results will be largely distorted.  相似文献   

A Finite-Difference Approach to the Time-Dependent Mild-Slope Equation     

张洪生  赵红军时钟 《中国海洋工程》2007,21(1):65-76

A finite-difference approach is used to develop a time-dependent mild-slope equation incorporating the effects of bottom dissipation and nonlinearity.The Euler predictor-corrector method and the three-point finite-difference method with varying spatial steps are adopted to discretize the time derivatives and the two-dimensional horizontal ones,respectively,thus leading both the time and spatial derivatives to the second-order accuracy.The boundary conditions for the present model are treated on the basis of the general conditions for open and fixed boundaries with an arbitrary reflection coefficient and phase shift.Both the linear and nonlinear versions of the numerical model are applied to the wave propagation and transformation over an elliptic shoal on a sloping beach,respectively,and the linear version is applied to the simulation of wave propagation in a fully open rectangular harbor.From comparison of numerical results with theoretical or experimental ones,it is found that they are in reasonable agreement.  相似文献