热带气旋莫兰蒂(1010)强度的观测研究和增强条件的诊断分析   总被引：2，自引：0，他引：2  

高拴柱  吕心艳  王海平  许映龙 《气象》2012,38(7):834-840

热带气旋莫兰蒂(1010)进入台湾海峡后显著加强。本文普查了历史上在台湾海峡与"莫兰蒂"有相似路径的热带气旋,其中几乎没有增强的热带气旋个例;总结了"莫兰蒂"在台湾海峡活动时的强度变化,指出在实时业务中国内外台风预报中心对于"莫兰蒂"强度的判定存在明显偏弱的现象。运用天气学和动力诊断方法,分析了"莫兰蒂"在台湾海峡活动时热带气旋发展的基本条件,结果发现:台湾海峡区域有较高的海表温度、丰富的中低层水汽净流入、强烈的低层辐合和高层辐散、低层涡度净流入,为"莫兰蒂"的发展提供了有利的动力和热力条件,弱的环境风垂直切变又使其强度增长没有受到大的抑制作用。研究结果可为热带气旋强度或强度变化预报提供有意义的参考。  相似文献   

热带大气准双周振荡对西北太平洋地区热带气旋路径的影响   总被引：7，自引：6，他引：1  

陶丽  李双君  濮梅娟  夏瑛 《南京气象学院学报》2012,35(4):404-414

利用美国国家海洋和大气管理局（National Oceanic and Atmospheric Administration,简称NO-An）的逐日对外长波辐射（outgoing longwave radiation,简称OLR）场资料,欧洲中期天气预报中心（European Center for Medium—Range Weather Forecasting,简称ECMWF）逐日风场（850hPa）资料,以及美国联合台风预警中心（Joint Typhoon Warning Center,简称JTWC）的热带气旋（tropicalcy—clone,简称TC）数据,参考Wheeler and Hendon（2004）提出的季节内振荡（Madden—Julianoscilla．tion,简称MJO）指数,通过多元EOF方法定义热带准双周振荡（quasi—biweekly oscillation,简称QBW）指数,诊断分析了西北太平洋地区QBW不同位相对于TC路径的影响。结果表明,TC主要生成在QSW对流湿位相中,集中位置随QBW向西北的传播而向西北移动。在QSW位相phasel中,南海上空盛行QBW反气旋性环流,西太副高西伸,其西南侧偏东南气流受QBW反气旋性环流东北侧气流抑制,生成在副高南侧的TC首先在副高南侧偏东气流的引导下移动至近海,在西南季风以及副高西侧偏南气流作用下顺时针北折,因此在140°E以西转折类路径的TC比例最高;而在phase3中,西太副高偏东,南海上空盛行QBW气旋性环流,西太副高西南侧气流强度受QBW气旋东北侧气流影响增强,季风槽偏东,140°E以东转折类的TC比例最高。本文还对TC个例中的QBW流场形势进行了分析,发现当QBW气旋或反气旋环流中心同TC中心一致时,热带气旋路径会发生突然的右折。  相似文献   

一种对资源不稳定性敏感的EASY-backfill算法   总被引：2，自引：2，他引：0  

王征宇  肖南峰 《南京气象学院学报》2012,4(2):163-169

利用合成技术对1995—2006年冬季（11月—次年2月）生成在西北太平洋上的34个热带气旋（tropicalcyclone,TC）个例进行分析,研究冬季西北太平洋TC生成的大尺度环流特征及其生成机制,结果表明：冬季TC生成的大尺度环流特征型为东风波西传型;北半球冬季对流层低层出现的跨赤道气旋对是冬季北半球TC形成的重要特征;太平洋中部赤道混合Rossby重力波西北传,与强对流中心重合,性质转为＂热带低压型扰动＂,为冬季热带气旋生成提供扰动源。对合成TC初始场的涡动扰动动能的收支分析表明,涡动有效位能和正压不稳定转换为TC形成提供了能量,这两种能量分别与积云对流加热和水平不均匀气流有关。正压不稳定能量转换为动能主要位于对流层中下层,而扰动有效位能的转换主要位于对流层中上层。低层热带东风波动从平均气流中获得正压不稳定能量,并与强积云对流耦合,热力和动力共同作用下形成TC。  相似文献   

登陆热带气旋与夏季风相互作用对暴雨的影响   总被引：3，自引：1，他引：2       下载免费PDF全文

程正泉  陈联寿  李英 《应用气象学报》2012,23(6):660-671

利用《热带气旋年鉴》资料、NCEP/NCAR再分析资料采用动态合成分析方法,研究了登陆热带气旋降水与夏季风急流之间的关系,同时对登陆热带气旋与夏季风急流发生相互作用的典型个例强热带风暴Bilis (0604) 利用数值模拟方法研究了二者之间的相互作用对暴雨的影响。结果表明:登陆后造成大范围强降水的热带气旋往往与低层急流长时间相连,其水汽通量和潜热能显著大于弱降水热带气旋。数值试验结果表明:夏季风低空急流向热带气旋输送水汽对热带气旋结构维持有利,当水汽输送被截断后,热带气旋气旋性结构被破坏,强降水减弱、范围明显缩小;季风急流风速增强时可增加水汽通量输送,使得强降水范围增加、强度增强;在夏季风影响背景下,热带气旋在陆上的移动改变水汽和不稳定能量的分布,而热带气旋本身独特的动力结构使得强降水强度增加。  相似文献   

涡旋自组织过程影响0604号热带气旋Bilis降水的数值研究     

滕代高  高云  代刊  黄新晴 《热带气象学报》2012,28(4):433-442

利用PSU/NCAR中尺度天气预报模式MM5,成功模拟了0604号热带气旋Bilis登陆后的移动路径和降水分布。在此基础上,讨论了不同尺度涡旋自组织过程对热带气旋Bilis产生局地暴雨的影响。结果表明:(1)引发强降水的对流系统不是来源于热带气旋螺旋云带内的对流云团,而是受热带气旋外围环流与局地地形影响下形成的多个中小尺度系统之间自组织的结果;(2)与0604号热带气旋Bilis登陆前后24小时的强降水相关的自组织过程是分阶段进行的,即第一阶段的双涡自组织过程和第二阶段的多涡自组织过程;(3)局地多尺度涡旋之间的自组织过程,是0604号热带气旋Bilis陆上强降水发生的主要动力机制。  相似文献   

1949—2010年西北太平洋热带气旋特征分析     

古月 《内蒙古气象》2012,(1):3-7

文章分析了1949—2010年发生在西北太平洋上的热带气旋的空间分布特征。并利用趋势分析、小波分析和滑动t检验方法分析了热带气旋的年际变化特征、季节变化特征、周期特征和突变特征。结果表明:西北太平洋热带气旋多生成于5~25°N,110~170°E的海域。频数的年际变化存在三个阶段,月际变化明显,集中出现在7—10月。整个时域上10~15a的波动明显,并经历了三次突变过程。62a间强热带风暴生成最多,台风次之,热带风暴最少。热带气旋强度的年变化不明显。热带气旋强度越强,频数最大值的月份出现越晚。亚洲季风和西太平洋副高对热带气旋的产生起很大的作用。  相似文献   

乌兰察布地区一次大范围沙尘天气过程分析     

刘建梅  高晶  包福祥 《内蒙古气象》2012,(2):3-4,10

运用常规气象观测资料,从天气环流形势的演变过程及有关物理量变化状况,对2010年3月19—20日发生在乌兰察布地区沙尘天气过程做了客观分析。分析结果表明：造成这次沙尘天气过程的主要影响天气系统是蒙古气旋和地面冷锋。蒙古气旋后部西北强冷空气侵入为起源于蒙古国西南部以及内蒙古西中部周边沙尘的输送提供了动力条件;地面冷锋过境使该地区温度梯度增大,空气对流上升加剧,为上游输送而来的尘土、沙石卷入空中浮悬提供了抬升条件。两者共同作用促使沙尘天气过程持续时间长、范围广,并伴有扬沙和沙尘暴出现。  相似文献   

DYNAMIC FACTORS RELATED TO DECAY PROCESS OF OFFSHORE TROPICAL CYCLONES IN NORTHWEST PACIFIC     

雷小途  汤杰  许晓林  占瑞芬  于润玲  黄荣成  吴联要 《热带气象学报(英文版)》2012,18(2):127-134

Intensity variation of tropical cyclones(TCs),especially that of coastal or landfalling TCs,is of great concern in current research.Most of the research papers,however,focus on intensification processes of TCs;only a few discuss decay processes in the lifetime of a TC.In the daily weather operation related to TCs,it is challenging when a TC weakens and/or disappears suddenly,because it brings more difficulties than the forecast of intensifying TCs does.Overestimation of a decaying landfalling TC would lead to over-preparation of defensive measures and result in"crying wolf"mentality with adverse effects.This study summarized physical mechanisms that dominate the decaying process of TCs and listed several possible dynamical factors:reduced level of air temperature,too large or too small speed,contraction of TC size amplification of TC’s core,and lightning number in a TC.  相似文献   

MICROPHYSICAL CHARACTERISTICS OF THE RAINDROP SIZE DISTRIBUTION IN TYPHOON MORAKOT (2009)   总被引：3，自引：1，他引：2  

陈宝君  王元  明杰 《热带气象学报(英文版)》2012,18(2):162-171

Microphysical characteristics of the raindrop size distribution(RSD)in Typhoon Morakot(2009) have been studied through the PARSIVEL disdrometer measurements at one site in Fujian province,China during the passage of the storm from 7 to 10 August 2009.The time evolution of the RSD reveals different segments of the storm.Significant difference was observed in the microphysical characteristics between the outer rainband and the eyewall;the eyewall precipitation had a broader size distribution(a smaller slope) than the outer rainband and eye region.The outer rainband and the eye region produced stratiform rains while the eyewall precipitation was convective or mixed stratiform-convective.The RSD was typically characterized by a single peak distribution and well represented by the gamma distribution.The relations between the shape(μ)and slope(Λ)of the gamma distribution and between the reflectivity(Z)and rainfall rate(R)have been investigated.Based on the NW-Dm relationships,we suggest that the stratiform rain for the outer rainband and the eye region was formed by the melting of graupel or rimed ice particles,which likely originated from the eyewall clouds.  相似文献   

EFFECTS OF VERTICAL WIND SHEAR ON INTENSITY AND STRUCTURE OF TROPICAL CYCLONE   总被引：2，自引：1，他引：1  

陈启智  方娟 《热带气象学报(英文版)》2012,18(2):172-186

In this study,the effect of vertical wind shear(VWS)on the intensification of tropical cyclone(TC)is investigated via the numerical simulations.Results indicate that weak shear tends to facilitate the development of TC while strong shear appears to inhibit the intensification of TC.As the VWS is imposed on the TC,the vortex of the cyclone tends to tilt vertically and significantly in the upper troposphere.Consequently,the upward motion is considerably enhanced in the downshear side of the storm center and correspondingly,the low-to mid-level potential temperature decreases under the effect of adiabatic cooling,which leads to the increase of the low-to mid-level static instability and relative humidity and then facilitates the burst of convection.In the case of weak shear,the vertical tilting of the vortex is weak and the increase of ascent,static instability and relative humidity occur in the area close to the TC center.Therefore,active convection happens in the TC center region and facilitates the enhancement of vorticity in the inner core region and then the intensification of TC.In contrast,due to strong VWS,the increase of the ascent,static instability and relative humidity induced by the vertical tilting mainly appear in the outer region of TC in the case with stronger shear,and the convection in the inner-core area of TC is rather weak and convective activity mainly happens in the outer-region of the TC.Therefore,the development of a warm core is inhibited and then the intensification of TC is delayed.Different from previous numerical results obtained by imposing VWS suddenly to a strong TC,the simulation performed in this work shows that,even when the VWS is as strong as 12 m s-1,the tropical storm can still experience rapid intensification and finally develop into a strong tropical cyclone after a relatively long period of adjustment.It is found that the convection plays an important role in the adjusting period.On one hand,the convection leads to the horizontal convergence of the low-level vorticity flux and therefore leads to the enhancement of the low-level vorticity in the inner-core area of the cyclone.On the other hand,the active ascent accompanying the convection tends to transport the low-level vorticity to the middle levels.The enhanced vorticity in the lower to middle troposphere strengths the interaction between the low-and mid-level cyclonical circulation and the upper-level circulation deviated from the storm center under the effect of VWS.As a result,the vertical tilting of the vortex is considerably decreased,and then the cyclone starts to develop rapidly.  相似文献