南海北部陆架区两个台风过境时近惯性运动的若干特征   总被引：2，自引：1，他引：1  

CHEN Shengli  HU Jianyu  POLTON Jeff A. 《海洋学报(英文版)》2015,34(1):38-43

Features of near-inertial motions on the shelf(60 m deep) of the northern South China Sea were observed under the passage of two typhoons during the summer of 2009. There are two peaks in spectra at both sub-inertial and super-inertial frequencies. The super-inertial energy maximizes near the surface, while the sub-inertial energy maximizes at a deeper layer of 15 m. The sub-inertial shift of frequency is induced by the negative background vorticity. The super-inertial shift is probably attributed to the near-inertial wave propagating from higher latitudes. The near-inertial currents exhibit a two-layer pattern being separated at mid-depth(25–30 m), with the phase in the upper layer being nearly opposite to that in the lower layer. The vertical propagation of phase implies that the near-inertial energy is not dominantly downward. The upward flux of the near-inertial energy is more evident at the surface layer(17 m). There exist two boundaries at 17 and 40 m, where the near-inertial energy is reflected upward and downward. The near-inertial motion is intermittent and can reach a peak of as much as 30 cm/s. The passage of Typhoon Nangka generates an intensive near-inertial event, but Typhoon Linfa does not. This difference is attributed to the relative mooring locations, which is on the right hand side of Nangka's path(leading to a wind pattern rotating clockwise with time) and is on the left hand side of Linfa's path(leading to a wind pattern rotating anti-clockwise with time).  相似文献   

“菲特”台风路径和强度预报难点分析   总被引：1，自引：0，他引：1  

娄小芬  楼茂园  罗玲  范爱芬 《海洋预报》2015,32(1)

利用1°×1°NCEP再分析资料、NOAA海温资料对其进行分析,结果表明:(1)副高突然加强西进,中低层高压带加强,在台风北侧形成高压坝和强盛偏东气流,是台风路径突然西折的主要原因;(2)"丹娜丝"的活动在一定程度上阻止了副热带高压的南落,有利于副高南侧偏东急流的维持和加强,对"菲特"路径的突然西折起一定作用。敏感性数值试验结果表明"双台风"效应对"菲特"登陆前进一步西折具有决定作用;(3)高低空急流的配置,产生了动力场的耦合作用,加强了台风的对流活动,所释放的潜热可以补偿海温降低的影响,对"菲特"在近海强度维持起到了重要作用;(4)"菲特"的强度和环境风垂直切变的演变规律基本一致,较低的环境风垂直切变是"菲特"在近海强度维持的重要原因。  相似文献   

强台风下导管架平台倒塌全过程数值仿真     

朱本瑞  陈国明  林红  刘红兵  黄超 《海洋工程》2015,33(2):97-104

针对强台风引起的平台倒塌问题,综合隐式有限元与显式动力有限元算法,建立导管架平台结构倒塌全过程仿真流程;提出基于重现期的Pushover分析方法,充分考虑平台侧向环境载荷分布的变化以及可能的甲板上浪载荷因素,使得确定的倒塌环境载荷更加真实;采用APDL编制平台隐式与显式有限元模型转化程序,有效解决波浪载荷计算与精确施加的难题;在此基础上,应用LS-DYNA实现导管架平台在强台风载荷下的倒塌全过程仿真,动态再现平台结构倒塌过程中的构件破坏失效及内力分布,深入揭示平台结构的倒塌机理。研究成果可为导管架平台结构抗台风设计及理论研究提供参考。  相似文献   

应用GIS技术的台风灾害危险性评估系统     

刘少军  张京红  何政伟  蔡大鑫  田光辉 《地理空间信息》2011,9(1):34-35,38

由于台风灾害危险性评估是一个复杂的多源信息综合分析的过程,借助功能强大、操作简便和显示直观的ArcGIS作为开发平台,开发了台风灾害危险性评估系统,实现了台风灾害危险性评估的可视化,发挥GIS强大的空间信息可视化管理和分析功能,为台风防灾减灾提供决策服务.  相似文献   

台风风神海上石油平台预报服务探讨     

罗森波  罗秋红  舒锋敏  林永堂 《气象》2011,37(6):742-748

总结了在对台风风神数值预报失效,预报路径偏东的情况下,预报人员抓住天气形势的细微变化对路径及时修正,并紧密结合用户需求,以“全程跟进,及时沟通,急用户之所急”的高度责任心和服务态度,使海上石油平台1500人安全撤离,避免了人员伤亡和重大经济损失的服务过程。经研究发现：(1)“风神”偏西侧的强对流发展、地面负变压中心、中层正涡度中心、高层正散度中心的存在,以及云图北侧带状黑体区的形成均有利于“风神”西折;(2)在500hPa图上,“风神”前期西南部有一低压环流中心,后期东北侧高压坝形成,造成“风神”两次北翘。  相似文献   

Impact of Cloud Microphysical Processes on the Simulation of Typhoon Rananim near Shore. Part I: Cloud Structure and Precipitation Features          下载免费PDF全文

CHENG Rui  YU Rucong  FU Yunfei  XU Youping 《Acta Meteorologica Sinica》2011,25(4):441-455

By using the Advanced Regional Eta-coordinate Model (AREM), the basic structure and cloud features of Typhoon Rananim are simulated and verified against observations. Five sets of experiments are designed to investigate the effects of the cloud microphysical processes on the model cloud structure and precipitation features. The importance of the ice-phase microphysics, the cooling effect related to microphysical characteristics change, and the influence of terminal velocity of graupel are examined. The resu...  相似文献   

Impact of Cloud Microphysical Processes on the Simulation of Typhoon Rananim near Shore. Part II: Typhoon Intensity and Track          下载免费PDF全文

CHENG Rui  YU Rucong  XU Youping  FU Yunfei 《Acta Meteorologica Sinica》2011,25(4):456-466

The impact of cloud microphysical processes on the simulated intensity and track of Typhoon Rananim is discussed and analyzed in the second part of this study. The results indicate that when the cooling effect due to evaporation of rain water is excluded, the simulated 36-h maximum surface wind speed of Typhoon Rananim is about 7 m s⁻¹ greater than that from all other experiments; however, the typhoon landfall location has the biggest bias of about 150 km against the control experiment. The simulated strong outer rainbands and the vertical shear of the environmental flow are unfavorable for the deepening and maintenance of the typhoon and result in its intensity loss near the landfall. It is the cloud microphysical processes that strengthen and create the outer spiral rainbands, which then increase the local convergence away from the typhoon center and prevent more moisture and energy transport to the inner core of the typhoon. The developed outer rainbands are supposed to bring dry and cold air mass from the middle troposphere to the planetary boundary layer (PBL). The other branch of the cold airflow comes from the evaporation of rain water itself in the PBL while the droplets are falling. Thus, the cut-off of the warm and moist air to the inner core and the invasion of cold and dry air to the eyewall region are expected to bring about the intensity reduction of the modeled typhoon. Therefore, the deepening and maintenance of Typhoon Rananim during its landing are better simulated through the reduction of these two kinds of model errors.  相似文献   

0812号台风鹦鹉分析   总被引：1，自引：0，他引：1  

张洁婷  陈明璐  廖胜石 《广西气象》2011,(1):18-21,109

利用常规观测资料、雷达资料分析了台风＂鹦鹉＂影响过程的环流形势特征,发现：（1）台风鹦鹉的影响期间,南压高压中心位置稳定在青藏高原东部,有利于台风右侧高层的辐散流场;（2）副高强度偏弱位置偏东,不利台风东侧水汽输送。700hPa槽后的偏北气流大举南下与台风前的偏北气流合并,台风中层冷空气的入侵影响有利暴雨的发生;（3）暴雨期间,低层切变在广西南部频繁摆动为当地暴雨提供动力条件,台风强度和云系的维持主要来自于南海20°N以北的一条较狭窄的急流带为台风前西侧降水提供水汽条件;（4）南宁多普勒雷达速度图上的γ中尺度系统与强度场上雨团强度分布有很好的对应关系,造成暴雨的原因是不断发展的强对流单体。  相似文献   

Analysis on structure of Typhoon Longwang based on GPS dropwinsonde data   总被引：1，自引：1，他引：0  

舒守娟  彭犁然 《热带气象学报(英文版)》2011,17(3):193-201

As one of the most severe typhoons in the year 2005,Typhoon Longwang is chosen as a case study in this article.Throughout its life,two surveillance flights are carried out on it.Different from previous studies,GPS(global positioning system)Dropwinsonde data collected from the Dropwinsonde Observations for Typhoon Surveillance near the Taiwan Region is chosen to present the thermodynamic and kinetic structure at its two different stages of development.This study suggests that not only kinetic structure but also thermodynamic structure of Longwang are more robust in the second surveillance than the first surveillance,with stronger and larger circulation and a warmer core.Further research shows that the environmental vertical wind shear mainly contributes to the asymmetric structure of the typhoon.The strong vertical wind shear not only results in the distinct asymmetric structure,but also restrains the development of the typhoon.  相似文献   

Asymmetric rainband breaking in Typhoon Haitang (2005) before and after its landfall   总被引：1，自引：1，他引：0  

丁治英  王勇  沈新勇  徐海明 《热带气象学报(英文版)》2011,17(3):276-284

Using the WRF (Weather Research Forecast) model, this work performed analysis and simulation on the rainband change during the landfall of Typhoon Haitang (2005) and found that breaking may occur over land and oceans leads to distinct asymmetric precipitation. The breaking is related to the topographic effect as well as interactions between the typhoon and midlatitude systems at upper levels. During the landfall, divergent flows at the 200-hPa level of the South-Asian high combined with divergent flows at the periphery of the typhoon to form a weak, inverted trough in the northwest part of the storm, with the mid- and low-level divergence fields on the west and northwest side of the typhoon center maintaining steadily. It intensifies the upper-level cyclonic flows, in association with positive vorticity rotating counterclockwise together with air currents that travel stepwise into a vorticity zone in the vicinity of the typhoon core, thereby forming a vorticity transfer belt in 22–25? N that extends to the eastern part of the storm. It is right here that the high-level vorticity band is subsiding so that rainfall is prevented from developing, resulting in the rainbelt breaking, which is the principal cause of asymmetric precipitation occurrence. Migrating into its outer region, the banded vorticity of Haitang at high levels causes further amplification of the cyclonic circulation in the western part and transfer of positive vorticity into the typhoon such that the rainband breaking is more distinct.  相似文献