潮汐和潮流作用下1323号台风“菲特”台风浪数值模拟

作者：郑祥靖

单位：福建省海洋预报台, 福建福州350003

关键词：台湾海峡 SWAN模式 台风浪 潮汐和潮流

分类号：P731

出版年·卷·期（页码）：2015·32·第五期（8-13）

摘要：

利用第三代近岸海浪模式SWAN(SimulatingWAves Nearshore)建立了基于非结构网格的台湾海峡台风浪数值模型,并以WRF模式(Weather Research and Forecasting Model)计算得到的高分辨率台风风场作为驱动,模拟了1323 号台风“菲特”影响期间台湾海峡波浪场的演变过程。以实测资料进行验证的结果表明:整个模拟过程风速的平均绝对误差为1.60 m/s,有效波高的平均绝对误差为0.42 m,计算结果较好地再现了“菲特”台风影响下海峡内波浪运动过程。通过对比数值实验分析了潮汐、潮流对台湾海峡台风浪的影响,分析表明:海峡内近岸浅水区域潮汐和潮流对波浪计算的影响显著,在考虑水位和流场后,计算得到的有效波高分布曲线呈现周期性振荡,且与潮汐周期变化一致,计算得到的有效波高绝对误差下降14%,近岸波浪数值模拟的精度得到了改善。

Using the third generation of wave numerical model SWAN (Simulating Waves Nearshore), the typhoon wave model of the Taiwan Strait was established based on the unstructured grids. Driving by the high-resolution typhoon wind fields from the WRF (Weather Research and Forecasting Model), the evolution of the wave field in the Taiwan Strait during the typhoon“Fitow”(1323) was simulated. After comparison with measured data, the results showed that the mean absolute deviation of the wind in the whole simulation process was 1.60m/s, and that of the significant wave height was 0.42m, so the simulating results reflected the propagation processing of the wave in the strait well during the typhoon“Fitow”. After analyzing the effect of tide and currents on the typhoon wave by the comparison experiments, it showed that the influence of tide was significant in the shallow water of the strait. Moreover, after considering the effect of tide, the curves of calculated wave height showed signs of cyclical oscillation that were consistent with the tidal cycle, and the mean absolute deviation of calculated wave height decreased by 14 percent, so the accuracy of offshore wave numerical simulation in the strait was improved.

参考文献：

[1] Wolf J, Hubbert K P, Flather R A. A feasibility study for the development of a joint surge and wave model [R]. Report No. 1 of the Proudman Oceanographic Laboratory, Birkenhead, United Kingdom, 1988: 109. [2] Tolman H L. Effects of tides and storm surges on North sea wind waves [J]. Journal of Physical Oceanography,1991,21(6): 766- 781. [3] Mastenbroek C, Burgers G, Janssen P A E M. The dynamical coupling of a wave model and a storm surge model through the atmospheric boundary layer [J]. Journal of Physical Oceanography, 1993, 23(8): 1856-1866. [4] 尹宝树, 王涛, 侯一筠, 等. 渤海波浪和潮汐风暴潮相互作用对波 浪影响的数值研究[J]. 海洋与湖沼, 2001, 32(1): 109-116. [5] 魏艳, 商少平, 谢燕双, 等. 台湾海峡潮流对海浪影响的数值实验[J]. 厦门大学学报(自然科学版), 2012, 51(1): 97-100. [6] 张文舟. 台湾海峡台风暴潮及其数值预报模式研究[D]. 厦门: 厦 门大学, 2006. [7] 陈希, 闵锦忠, 李妍, 等. 台湾岛邻近海域台风浪模拟分析[J]. 气 象科学, 2003, 23(1): 46-54. [8] Burg J P. Maximum entropy spectral analysis [C]. Presented at 37th Annual International SEG Meeting. Oklahoma City, USA: Society of Exploration Geophysics, 1967. [9] 张敬, 杨利利, 谷学准, 等. 黄河三角洲区域的波流相互作用数值 分析[J]. 海洋科学, 2010, 34(9): 64-69, 101.

服务与反馈：

【文章下载】【发表评论】【查看评论】【加入收藏】