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1.
一个偶合离散海浪模式 总被引:2,自引:0,他引:2
本文讨论的海浪模式(以下简称CDWM)结合了计算风浪过程的参数化方法和处理涌浪过程的离散化方法的优点,并且还包含了涌浪和风浪之间的相互转化。波浪成长过程包括从风场中的能量输入、波浪破碎以及底摩擦引起的能量耗散,并在波浪的传播过程中考虑了非均匀海底引起的波浪折射。 相似文献
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多方向不规则波传播变形数值模拟 总被引:1,自引:1,他引:1
在推广的缓坡方程数学模型基础上建立了多方向不规则波数学模型,综合考虑了波浪折射、绕射、反射、底摩擦和风能输入等因素。基于线性波浪理论,将波浪方向谱在频率和方向上按等能量分割法离散后,分别计算各组成波的传播变形,再计算合成波要素。缓坡方程数学模型采用改进的ADI法求解,计算效率高,稳定性好。采用椭圆形浅滩不规则波模型试验结果和单突堤不规则波绕射理论解对数学模型进行了验证,数值模拟结果和试验值及理论解符合良好。利用该模型进行了某港港内波浪折射、绕射和反射的联合数值模拟,给出了合理的港内波高分布。 相似文献
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本研究使用成熟的SWAN模型对厦门湾的波浪场进行了1a的数值模拟,通过与同期的珍珠湾波浪观测数据进行对比验证了模型的可靠性.根据模型的计算结果,分析了厦门湾年平均和夏、冬两季平均波高和波向的分布特征,厦门湾的风浪和涌浪组成,珍珠湾波浪观测海域主要的波浪能量生成和能量耗散过程.结果表明,厦门湾年平均有效波高较小,且有较明显的季节变化特征,夏季厦门湾平均有效波高较小,且湾内波向多为偏南向;冬季厦门湾平均有效波高相对较大,厦门岛北侧和东侧海域波向均为NE向.厦门湾湾内以风浪为主,涌浪较小,风浪、涌浪比较大,均在3以上;从湾外向湾内,风浪、涌浪比逐渐增加,至厦门湾南岸和泉州石井镇附近海域,风浪、涌浪比增加到5~6;在厦门湾东部和北部海域,风浪、涌浪比均在10以上.珍珠湾海域波浪最主要的能量耗散过程是由底摩擦引起的能量耗散,虽然冬季风速较大,但夏季风能输入的能量和白帽破碎耗散的能量均大于冬季;因冬季波浪相对较大,夏季底摩擦耗散的能量要小于冬季. 相似文献
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水动力时空变化对近岸风浪演化的影响——以渤海湾西南岸为例 总被引:1,自引:0,他引:1
采用SWAN模型和ADCIRC模型建立了风浪、潮汐和水流联合作用的耦合数值模式,并通过渤海湾西南岸实测资料对该模式进行了验证。利用该模式分析了近岸区水位和流场时空变化对风浪模拟结果的影响,计算结果表明水位变化对近岸区风浪模拟结果有显著影响,特别是中等大风过程高潮位时波高受水位影响的变化幅值可达0.5m以上,且水深越浅影响越大。但在岸滩平缓的近岸海域由于流速、流向的时空变化不太剧烈,流场作用和波浪辐射应力作用对波浪场的影响都基本可以忽略。在模拟近岸风浪过程时,应选用耦合模式。 相似文献
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联合SWAN模型和改进的椭圆型缓坡方程,结合考虑台湾海峡地形效应的改进藤田公式风场模型,建立了台湾海峡及近岸波浪场的数值嵌套模式.边界采用波谱离散驱动,模拟了0908号台风“莫拉克”期间台湾海峡波浪场的演变和崇武西沙湾浅水台风浪传播的物理过程.以实测数据进行单点验证表明,整个模拟过程风速的平均绝对误差为3.38 m/s,波高的平均绝对误差为0.30 m,计算结果较好地反映海峡内波浪对台风的响应过程.“莫拉克”台风登陆台湾岛时,台湾海峡有效波高最大值为5.0m;台风中心进入台湾海峡后,海峡东北部为巨浪到狂涛,有效波高最大值可达10.5 m.接近福建崇武沿岸时,偏E向台风浪向西沙湾内近岸传播,发生浅化、破碎、反射、绕射等变形现象,有效波高最大不足2 m,最小仅为0.2m,波向趋于SE向,波峰线则趋于与峡湾岸线平行;崇武闽台贸易码头附近,大部分波浪受到阻挡作用发生反射,少部分发生绕射,使得码头以北水域波浪较小,有效波高仅为0.2 ~0.6 m,对湾内避风坞起到较好的保护作用. 相似文献
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长江口水域波浪数值计算 总被引:2,自引:0,他引:2
利用高阶非线性抛物型缓坡方程对长江口水域的波浪传播变形作了推算,依据测站的资料分析数值模式中的底摩阻因子和风能输入因子对波浪传播的影响,进而确定其参数。针对不同导堤结构型式,分析了潜堤的波浪传递系数,最后对长江口二期整治工程完成后水域的波浪场作了推算。 相似文献
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考虑波浪的浅水变化、折射、绕射、反射和破碎等现象的影响,以文氏谱作为输入谱,建立了浅水区域随机波浪传播变形的改进数值模型。对日照帆船港港域波高的数值计算结果表明:在没有越浪的情况下,计算值与物理模型试验观测值吻合。改进的数值模型成为求解港口水域波高的1种有效方法。 相似文献
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闽中近岸西北行路径台风浪波向特征 总被引:1,自引:0,他引:1
台风浪的研究对于船舶航行、避风以及港口、海洋和近岸建筑物的安全有着重要的现实意义。本文基于考虑波浪折射、底部损耗及波浪破碎等的波谱模型,在充分考虑风能量输入、白帽耗散、波浪破碎以及波-波间的非线性相互作用等物理过程后,对在福建省中部登陆的0513号"泰利"、0709号"圣帕"和0808号"凤凰"台风引起的台风浪过程进行了数值模拟计算。计算结果与实测数据相吻合,并总结出闽中近岸西北行路径台风浪的波向变化规律。为近岸海域船舶航行和港口工程防灾减灾提供了较为重要的参考依据。 相似文献
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波浪在斜坡地形上破碎,破波后稳定波高多采用物理模型试验方法进行研究,利用近岸波浪传播变形的抛物型缓坡方程和波能流平衡方程,导出了适用于斜坡上波浪破碎的数值模拟方法。首先根据波能流平衡方程和缓坡方程基本型式分析波浪在破波带内的波能变化和衰减率,推导了波浪传播模型中波能衰减因子和破波能量流衰减因子之间的关系;其次,利用陡坡地形上的高阶抛物型缓坡方程建立了波浪传播和波浪破碎数学模型;最后,根据物理模型试验实测数据对数值模拟的效果进行验证。数值计算与试验资料比较表明,该模型可以较好地模拟斜坡地形的波浪传播波高变化。 相似文献
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An Extended Mild-Slope Equation 总被引:1,自引:0,他引:1
PAN Junning 《中国海洋工程》2000,14(4):459-471
On the assumption that the vortex and the vertical velocity component of the current aresmall,a mild-slope equation for wave propagation on non-uniform flows is deduced from the basichydrodynamic equations,with the terms of (V_hh)~2 and (V_h~2)h included in the equation.The terms of bot-tom friction,wind energy input and wave nonlinearity are also introduced into the equation.The wind en-ergy input functions for wind waves and swells are separately considered by adopting Wen′s(1989)empiri-cal formula for wind waves and Snyder′s observation results for swells.Thus,an extended mild-slope equa-tion is obtained,in which the effects of refraction,diffraction,reflection,current,bottom friction,wind en-ergy input and wave nonlinearity are considered synthetically. 相似文献
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TAO Jianhua 《中国海洋工程》2001,(2):269-280
The "surface roller" to simulate wave energy dissipation of wave breaking is introduced into the random wave model based on approximate parabolic mild slope equation in this paper to simulate the random wave transportation including diffraction, refraction and breaking in nearshore areas. The roller breaking random wave higher-order approximate parabolic equation model has been verified by the existing experimental data for a plane slope beach and a circular shoal, and the numerical results of random wave breaking model agree with the experimental data very well. This model can be applied to calculate random wave propagation from deep to shallow water in large areas near the shore over natu ral topography. 相似文献
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Wen Shengchang 《海洋学报(英文版)》1989,8(1):1-14
The authors make an endeavor to explain why a new hybrid wave model is here proposed when several such models have already been in operation and the so- called third generation wave modej is proving attractive. This part of the paper is devoted to the wind wave model. Both deep and shallow water models have been developed, the former being actually a special case of the latter when water depth is great. The deep water model is exceptionally simple in form. Significant wave height is the only prognostic variable. In comparison with the usual methods to compute the energy input and dissipations empirically or by "tuning", the proposed model has the merit that the effects of all source terms are combined into one term which is computed through empirical growth relations for significant waves, these relations being, relatively speaking, easier and more reliable to obtain than those for the source terms in the spectral energy balance equation. The discrete part of the model and the implementation of the mode 相似文献
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In this paper, following the procedure outlined by Li (1994. An evolution equation for water waves. Coastal Engineering, 23, 227-242) and Hsu and Wen (2000. A study of using parabolic model to describe wave breaking and wide-angle wave incidence. Journal of the Chinese Institute of Engineers, 23(4), 515–527) and Hsu and Wen (2000) the extended refraction–diffraction equation is recasted into a time-dependent parabolic equation. This model, which includes higher-order bottom effect terms, is extended to account for a rapidly varying topography and wave energy dissipation in the surf zone. The importance of the higher-order bottom effect terms is examined in terms of the relative water depth. The present model was tested for wave reflection in a number of different environments, namely from a plane slope with different inclinations, from a patch of periodic ripples. The model was also tested for wave height distribution around a circular shoal and wave breaking on a barred beach. The comparison of predictions with other numerical models and experimental data show that the validity of the present model for describing wave propagation over a rapidly varying seabed is satisfactory. 相似文献
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Wave-Current Propagation over a Frictional Topography 总被引:1,自引:0,他引:1
ZUO Qihua DING Bingcan Prof. Senior Engineer River Harbour Department Nanjing Hydraulic Research Institute 《中国海洋工程》1998,(4)
—In this paper the parabolic approximation model based on mild-slope equation is used tostudy wave propagation over a slowly varying and frictional topography under wave-current interaction.A governing equation considering the friction effects is derived by the authors for the first time.A simpli-fied form for the rate of wave energy dissipation is presented on the basis of the wave-current action conser-vation equation and the bottom friction model given by Yoo and O'connor(1987).Examples reveal thatthe present computational method can be used for the calculation of wave elements for actual engineeringprojects with large water areas. 相似文献
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Takeshi Uji 《Journal of Oceanography》1984,40(4):303-313
An ocean wind-wave prediction model MRI-II is developed on the basis of the energy balance equation which contains five energy
transfer processes, namely, the input by the wind, the nonlinear transfer among the components of windsea by resonant wave-wave
interactions, wave breaking, frictional dissipation and the effect of opposing winds.
The nonlinear energy transfer is expressed implicitly together with the wind effect by Toba's one-parameter representation
of windsea, but neither swell-swell nor swell-windsea resonant interactions are considered.
Hypothetical assumptions are introduced to describe wave breaking effects. The numerical constant required in the assumptions
of wave breaking is determined through trial test runs for a hindcast performed on the North-western Pacific Ocean.
The significant wave height, one-dimensional wave spectrum and two-dimensional wave spectrum hindcasted by this new model
are in more reasonable agreement with observations than those obtained with our old model MRI. 相似文献
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Global estimates of wind energy input to subinertial motions in the Ekman-Stokes layer 总被引:1,自引:0,他引:1
By incorporating the wave-induced Coriolis-Stokes forcing into the classical Ekman model, the wind energy input to the Ekman-Stokes
layer is investigated, with an emphasis on the surface wave effects when the direction of Stokes drift deviates from that
of wind stress. Theoretical analysis of the kinetic energy balance of the Ekman-Stokes layer shows that the total wind energy
input consists of the direct wind energy input and the wave-induced energy input. Details of the direct wind and wave-induced
energy input are discussed. Based on the ECMWF ERA-40 Re-Analysis wind stress and surface wave data, the global total wind
energy input to subinertial motions in the Ekman-Stokes layer is estimated at 2.19 TW, including 0.26 TW (12%) wave-induced
energy input and 1.93 TW (88%) direct wind energy input. The effect of sea-ice coverage on the energy input to the Ekman-Stokes
layer is also considered. It is shown that the global total energy input could be overestimated by 0.08 TW (about 4%) without
taking the sea-ice coverage into account. 相似文献
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《Coastal Engineering》2005,52(2):139-149
An improved parabolic water wave transformation model is developed based on generalized [1/1] Padé approximation. For forward scattered waves, the parabolic equation is solved using a marching scheme. The values of wave angles are calculated after the solution of each line; so that better [1/1] generalized Padé approximation is performed. The nonlinear effects are included using a modified dispersion equation. The model is easy to use and performs very well for complex bathymetry. The model is tested for cases of wave angles up to 70°. The numerical results show that for large wave angles, the new parabolic model is better than all the existing parabolic models based on rational approximation. 相似文献