Analysis of Special Strong Wind and Severe Rainstorm Caused by Typhoon Rammasun in Guangxi, China

Based on conventional meteorological observation data, NCEP 1° × 1° reanalysis data, reanalysis data with resolution 0.75° × 0.75° from ECMWF and Doppler weather radar, we analyzed the weather conditions and physical characteristics of Super Typhoon Rammasun (1409), which caused special strong wind and severe rainstorm in Guangxi. The results show that: 1) Typhoon Rammasun offshore sudden strengthening in one of the main reasons was that loop pressure ridge superimposed into the westward extension of subtropical high, to making enable rapid strengthening of the subtropical high, so the subtropical high advanced faster than the Rammasun move, Rammasun center of the subtropical high distance reduced and the gradient increased;2) Rammasun northward to south china coast with plenty of vapor following ITCZ, before landing, southwest monsoon and cross-equatorial flow were involved, Rammasun got latent heat of monsoon jet, enabling it to strengthen in offshore;3) Rammasun from the Qiongzhou Strait into the northern Gulf, therefore the Strait of short passages and both sides belong to the low zone, friction consumption smaller, that was the main reason what was able to maintain the strength of the super typhoon, when Rammasun into the Beibu Gulf;4) Diagnostic analysis shows that Rammasun before entering the northern Gulf and into the Beibu Gulf later, vorticity weakened, divergence and vapor flux divergence changed were smaller, meanwhile, vertical ascent speed and latent heat transport both increased, which was important reason of severe rainstorm caused by Rammasun.

ANALYSIS OF CAUSATION OF ASYMMETRIC PRECIPITATION ASSOCIATED WITH SEVERE TYPHOON DAMREY

Severe typhoon Damrey moved across Hainan Island from 00:00 UTC 25 September to 00:00 UTC 27 September in 2005 and gave rise to a significant rain process during its 48-h passage.The precipitation intensity on the southern part of the island is stronger than that on the northern,showing obvious asymmetric distribution.Using Tropical Rainfall Measuring Mission(TRMM) data,the associated mesoscale characteristics of the precipitation were analyzed and the formation of asymmetric rainfall distribution was investigated in the context of a subsynoptic scale disturbance,vertical wind shear and orographic factors.The results are shown as follows.(1) The subsynoptic scale system provided favorable dynamic conditions to the genesis of mesoscale rain clusters and rainbands.(2) The southern Hainan Island was located to the left of the leeward direction of downshear all the time,being favorable to the development of convection and leading to the asymmetric rainfall distribution.(3) Mountain terrain in the southern Hainan Island stimulated the genesis,combination and development of convective cells,promoting the formation of mesoscale precipitation systems and ultimately resulting in rainfall increase in the southern island.

Observed near-inertial waves in the wake of Typhoon Hagupit in the northern South China Sea

Energetic near-inertial internal waves （NlWs） were observed on the continental slope of the northern South China Sea in September 2008. Characteristics of the observed near-inertial waves were examined based on current data recorded by a moored acoustic Doppler current profiler. Results of a simple slab model indicated that the NIWs were generated by the surface winds of Typhoon Hagupit. Following Hagupit＇s passage, the wave field was dominated by baroclinic NIWs. The near-inertial currents were surface-intensified with a maximum of 0.52 m/s but still reached 0.1 m/s at the depth of 210 m. Moreover, the near-inertial currents were clockwise-polarized and slightly elliptical. A depth-leading phase of the near- inertial currents was evident, which indicated downward energy propagation. However, the rotary vertical wavenumber spectra suggested that upward energy propagation also existed, which was consistent previous theoretical study. The frequency of the NIWs, modified by the positive background vorticity, was 0.714 2 cycles per day, which was 0.02f0 higher than the local inertial frequency （f0）. The near-inertial kinetic energy evolved exponentially and had an e-folding timescale of about 3 days. The vertical phase and group velocity were estimated to be 10 and 2.1 m/h, respectively, corresponding to a vertical wavelength of 340 m. The NlWs were dominated by the second mode with a variance contribution of 〉50%, followed by the third mode, while the first mode was insignificant.

“23.7”河北罕见特大暴雨过程降水演变与中尺度特征分析

2023年7月29日至8月2日,受台风“杜苏芮”北上减弱低压影响,河北出现罕见特大暴雨天气过程(以下简称“23.7”暴雨过程),其中位于冀南的邢台市梁家庄自动站52 h累积降水量高达1003.4 mm。利用常规地面与探空资料以及区域自动站资料、雷达拼图与ERA5再分析资料等,对“23.7”暴雨过程的降水演变特征、环流形势与环境条件、中尺度特征进行了初步分析。结果表明:此次暴雨过程具有持续时间长、累计雨量大、覆盖范围广等特征;台风“杜苏芮”登陆北上后,受500 hPa华北北部“高压坝”阻挡而停滞,河北大部地区整层水汽总量达到其气候平均态的2倍以上,环境大气具有低的抬升凝结高度和自由对流高度及一定的对流不稳定能量,以及850 hPa倒槽切变线稳定少动提供的持久辐合抬升条件,使得降水回波长时间维持在河北西南部太行山前和河北中部。边界层东南风急流伴随台风倒槽向北发展,急流核风速在河北中部超过22 m·s^(-1),大暴雨过程中地形作用明显。边界层急流影响河北西南部期间,回波强度30~40 dBz、质心高度低于6 km的多个对流单体先后移过梁家庄站上空,造成梁家庄站累计出现24 h的短时强降水;边界层急流北移后,8 m·s^(-1)左右的偏东风使太行山前层积混合云降水回波继续长时间维持造成雨区重叠,是梁家庄站52 h累积降水量超过1000 mm的主要原因。

ANALYSIS OF TYPHOON MATSA (NO.0509) AFFECTING SHANDONG PROVINCE

The characteristics of the moving course of Typhoon Matsa (No.0509), associated heavy rain and physical quantities fields have been analyzed, with the focus on the reason of the typhoon’s abrupt northeastward turn in Anhui Province and heavy rain concentrating in the northeast of typhoon center instead of near it. Meaningful conclusions are as follows. The reasons for typhoon abrupt turning are that the subtropical high pressure was moving southward and divergence fields of 200 hPa were to the right of the typhoon center; there was no obvious cold air invading Shandong after the typhoon entered the westerly belt; the southeasterly jet of typhoon and shear brought heavy rainfall to the Shandong peninsula before the typhoon entered Shandong. But after the typhoon’s movement into Shandong, the typhoon’s inverted trough brought the rainfall to the northern and central Shandong.

河北“23.7”极端暴雨过程特征及成因初探

2023年7月29日—8月1日,河北省发生了致灾严重的极端暴雨事件,气象观测站3 d(72 h)最大累计降水量为1003.4 mm(邢台临城梁家庄),河北、北京多站突破了历史纪录。利用高空、地面、卫星云图和多普勒天气雷达等观测资料以及ERA5再分析资料,对此次极端暴雨的极端性和成因进行了初步分析。结果表明,此次极端暴雨过程是在对流层高、中、低层以及中、低纬度多尺度大气系统共同作用,并叠加地形影响下产生的。(1)中纬度大陆高压东移并与北上西进的副热带高压连通,在河北北部形成稳定的西北—东南向高压坝,台风“杜苏芮”登陆后北上西行到河南境内时,受阻于高压坝,速度减慢,导致台风残涡降水长时间维持。(2)台风“杜苏芮”北上自身携带的水汽以及副高南侧的台风“卡奴”远距离输送的水汽,为河北极端暴雨的发生提供了充足的水汽;台风北上减弱过程中结构不变,边界层东北风急流和东南风急流辐合,加上太行山地形的辐合抬升作用,共同为极端降水提供了强盛的动力条件。(3)太行山中段的强降水时段集中在29日夜间至30日夜间,主要是减弱台风残涡的螺旋雨带、东到东北风急流在迎风坡抬升以及喇叭口地形、“狭管效应”增强辐合共同作用所致,250 mm以上的强降水出现在太行山东麓300~800 m的迎风坡上,以稳定性、低质心的暖云降水为主。(4)与太行山中段的极端降水相比,太行山北段的降水时间更长,主要降水时段集中在29日夜间至31日夜间,250 mm以上的强降水范围更大,既包括北段山脉东麓300~600 m的迎风坡一侧,也包括相邻的东部平原,但迎风坡上的降水强度小于太行山中段迎风坡,而平原地区的降水强度则高于太行山中段迎风坡。强降水主要受与山脉平行的东北急流和东南急流辐合以及地形作用所致,山脉东侧浅山区和平原降水对流性更强。(5)此次极端降水的水汽、动力、热力等物理量场都表现出了较强的极端性,偏强2~6倍样本标准差。

“23·7”河北太行山东麓罕见特大暴雨特征及成因

受台风杜苏芮北上减弱的低压影响,2023年7月29日至8月1日,京津冀地区遭受了历史罕见的特大暴雨,海河发生流域性特大洪水并造成人员伤亡和经济损失。利用高空观测、地面自动站、S波段多普勒天气雷达、风廓线雷达、ERA5再分析资料等,对此次天气过程进行了初步分析。结果表明:特大暴雨过程具有累计降水量大、持续时间长、地形作用明显等特征。台风杜苏芮、卡努提供了极为有利的水汽条件,华北北部形成的高压坝阻挡了台风环流北上,华北地区先后经历了阵性降水、台风倒槽降水和倒槽减弱阶段对流性降水三个阶段,降水落区的叠加效应是形成罕见特大暴雨的主要原因。台风倒槽阶段850 hPa切变线受太行山阻挡移动缓慢,降水持续时间长,初期大气处于近中性状态,雨强整体平稳,30日午后对流开始加强,河北中部降水区冷池出流的偏北风与偏东风形成地面辐合线,使得河北东南部高能区中触发的对流单体发展加强为MCS,移入保定后形成“列车效应”;太行山冷池出流的偏北风与地面东南风形成辐合线触发不稳定能量释放,是30日夜间河北西南部降水维持的原因。31日早晨超过20m·s^(-1)的东南风急流再次建立,造成北京南部超过110 mm·h^(-1)的强降水。

“黑格比”台风浙沪交界极端降水及物理量特征分析

利用全国综合气象信息共享平台(CIMISS)地面站点降水资料、欧洲中期天气预报中心逐小时再分析资料,分析“黑格比”台风登陆后在浙江嘉兴、上海金山交界地区(简称“关注区”)产生的极端降水及相关物理量特征,结果表明:(1)此次降水过程的小时雨强、日降水和过程降水均具有很强的极端性,部分测站达十年一遇甚至是百年一遇标准,杭州湾北岸强降水的极端性比南岸更显著;(2)关注区对流层低层充足的水汽,以及高低层冷、暖平流的叠加,为极端降水发生发展提供了有利的水汽条件和不稳定条件;(3)根据物理量的逐小时演变,呈现出低层辐散、高层辐合的环流增强,以及低层强烈的涡旋运动,关注区强降水也随之发生;(4)此次极端暴雨过程850 hPa第二类热成风螺旋度极值和地面散度经极值排序后呈现较高的百分位置,在相似台风中均具有显著的极端性,对类似路径、小体积台风极端降水的发生具有较好的指示意义。

一次近海快速增强型台风引发金华东部极端强降水成因分析

利用多种观测资料和ERA5逐时再分析资料,对2020年第4号台风“黑格比”(Hagupit)登陆后引发金华东部极端强降水成因进行分析。结果表明:(1)台风主体环流内部中小尺度对流系统的活动是金华东部强降水事件发生的直接原因。棠溪站位于对流活动中心区域(TBB≤-50℃),附近回波强度一直维持在35 dBZ以上,最大回波顶高≥15 km,≥45 dBZ的强回波伸展高度在5 km左右,低于0℃层高度,符合热带海洋型强降水回波特征。(2)低空急流和地形抬升作用是本次强降水过程发生的重要原因。(3)高低空散度的良好配置增强了棠溪站上空的垂直上升运动,促使雨强猛增。(4)低空尤其是925 hPa强烈的水汽输送为强降水的产生和维持提供了充沛的水汽条件。(5)充足的不稳定能量也为强降水的发生提供了有利的环境条件。棠溪站处于假相当位温高能区(>356 K),且K指数一直维持在37℃以上,有利于对流活动的发生和强降水的出现。本次极端强降水过程是在强烈上升运动、水汽的持续输送、地形抬升和不稳定能量释放的共同作用下引起的。

“23·7”华北特大暴雨过程的水汽特征

基于常规地面和探空观测以及ERA5再分析资料,分析了2023年7月29日至8月1日华北特大暴雨过程(简称“23·7”过程)的水汽输送、收支及其极端性等特征,探讨了太行山地形对持续性水汽辐合与垂直输送的重要作用。结果表明:此次过程发生在台风杜苏芮残涡北上,受高压坝阻挡,并有双台风(杜苏芮、卡努)水汽输送的有利背景下,降水时间超长、日降水量和累计降水量极大,在华北地区均有显著极端性。低层强盛的东南急流源源不断向华北地区输送水汽,暴雨区南边界和东边界均为水汽净流入,尤以南边界为主。偏东风在太行山东麓地形高度梯度区强迫抬升,形成强的水汽辐合与垂直输送中心,并稳定维持,是造成此次特大暴雨的重要原因。持续的水汽输送与辐合使得整层可降水量最大值超过75 mm,距平超过气候平均3个标准差,具有较强的极端性。对比“23·7”过程与2016年7月19—20日华北特大暴雨过程的水汽特征发现,二者低层水汽来源不同,前者主要来自西北太平洋和我国南海,后者则主要来自我国南海和孟加拉湾;前者区域平均水汽辐合强度明显弱于后者,单位时间内较强的短时强降水站次亦少于后者,但影响时间长于后者,说明相较于雨强而言,超长的降水时间是产生“23·7”极端强降水更为关键的因素。

2023年7月大气环流和天气分析

2023年7月北半球大气环流主要特征表现为:极涡分裂为多个中心呈绕极分布,较常年同期偏强;西太平洋副热带高压较常年同期强度偏强,位置偏西、偏北;全国平均降水量为122.0 mm,接近常年同期,有45个站日降水量超建站以来历史极值,吉林西部、河北南部等地累计降水量较常年同期显著偏多1~2倍,而西北中北部、广西中北部、湖南中部以及新疆北部等地偏少5成左右;有8次区域性暴雨天气过程,受台风杜苏芮及其残余环流影响,7月26—29日、7月29日至8月1日,台湾地区、浙江东部、福建东部以及京津冀等地部分地区先后出现极端强降水;月内共有3个台风生成,2个登陆我国,较常年同期略偏少,其中,台风杜苏芮为登陆福建第二强台风;全国平均气温为23.0℃,较历史同期略偏高,山东西部、河北南部、新疆西北部和东北部等地最高气温平均值较常年同期偏高2~4℃;高温过程共有7次,其中,7月5—16日为全国性的高温过程,中东部大部以及内蒙古西部和新疆大部最高气温超过35℃,12个国家站日最高气温超过历史极值。

2023年8月大气环流和天气分析

2023年8月大气环流的主要特征是:北半球极涡强度略偏强,500 hPa上亚洲中高纬地区环流形势为“两槽一脊”,影响我国东北、华北地区的高空槽偏强,西太平洋副热带高压西段脊线的平均位置较历史同期偏南。8月,全国平均气温为21.9℃,较常年同期(21.1℃)偏高0.8℃,全国平均降水量为110.9 mm,较常年同期(107.1 mm)偏多3.5%。月内,高温日数较常年同期偏多,区域高温过程持续影响我国,西北、东北等地气象干旱持续发展;我国出现6次暴雨过程。8月共有6个台风在南海和西北太平洋活动,生成个数较常年偏多,登陆个数较常年偏少。强对流天气多发,局地受灾严重,江苏盐城大丰区出现龙卷风。

台风“利奇马”(1909)影响期间上海强降水成因诊断分析

2019年第9号台风“利奇马”(1909)在8月9—11日影响上海期间造成了严重的风雨影响。基于ERA5逐小时再分析资料和上海区域高时空分辨率的地面观测资料,采用非地转Q矢量分解等方法诊断分析了此次强降水成因。结果表明,台风“利奇马”在上海造成的强降水主要来自台风东侧的螺旋雨带。强降水区东南西北各边界的相对湿度在垂直方向上随时间的变化差异明显,水汽的垂直输送和大气整层水汽含量在台风强降水中起重要作用。进一步利用非地转Q矢量分解方法揭示了东边界的大尺度和北边界的中尺度系统在强降水中起主要作用。台风登陆时呈现出整层大气被抬升之后最大强迫中心由高层向低层下传的态势,且此下传效应中尺度比大尺度强迫更加明显,从而有利于强降水的发生。

台风“烟花”和“黑格比”在浙江省平湖市形成的暴雨洪水分析及防洪对策研究

平湖市位于杭嘉湖平原东端,是浙江省接轨上海市的前沿高地,也是长三角区域一体化发展的核心区之一,地位十分重要,但其地势低洼,常受暴雨、洪水、高潮侵袭。依据实测资料和暴雨洪水调查成果,分析2021年“烟花”和2020年“黑格比”2次台风暴雨洪水对平湖市的影响及其成因和特性,在此基础上提出改进防御理念、优化工程布局、完善工程体系等措施,并基于MIKE11构建杭嘉湖平原河网一维水动力模型模拟分析工程实施效果,为沿海平原河网区域暴雨洪水灾害防御提供借鉴。

Characteristics and Possible Formation Mechanisms of Severe Storms in the Outer Rainbands of Typhoon Mujigae(1522)

To better understand how severe storms form and evolve in the outer rainbands of typhoons, in this study, we in- vestigate the evolutionary characteristics and possible formation mechanisms for severe storms in the rainbands of Typhoon Mujigae, which occurred during 2-5 October 2015, based on the NCEP-NCAR reanalysis data, conventional observations, and Doppler radar data. For the rainbands far from the inner core （eye and eyewall） of Mujigae （dis- tance of approximately 70-800 kin）, wind speed first increased with the radius expanding from the inner core, and then decreased as the radius continued to expand. The Rankine Vortex Model was used to explore such variations in wind speed. The areas of strong stormy rainbands were mainly located in the northeast quadrant of Mujigae, and overlapped with the areas of high winds within approximately 300-550 km away from the inner core, where the strong winds were conducive to the development of strong storms. A severe convective cell in the rainbands de- veloped into waterspout at approximately 500 km to the northeast of the inner core, when Mujigae was strengthening before it made landfall. Two severe convective cells in the rainbands developed into two tornadoes at approximately 350 km to the northeast of the inner core after Mujigae made landfall. The radar echo bands enhanced to 60 dBZ when mesocyclones occurred in the rainbands and induced tornadoes. The radar echoes gradually weakened after the mesocyclones weakened. The tops of parent clouds of the mesocyclones elevated at first, and then suddenly dropped about 20 min before the tornadoes appeared. Thereby, the cloud top variation has the potential to be used as an early warning of tornado occurrence.

2023年9月大气环流和天气分析

2023年9月北半球大气环流的主要特征为极涡呈单极型偏向东半球,强度与常年相当,贝加尔湖以西的欧亚中高纬度环流经向度较大,西太平洋副热带高压较常年明显偏西偏强;我国北方大部地区受平直西风环流影响,而南方大部则受西太平洋副热带高压控制。9月,全国平均气温为18.2℃,较常年同期(16.9℃)偏高1.3℃,江南、华南等地出现高温天气;全国平均降水量为69.1 mm,较常年同期(65.3 mm)偏多5.8%。西北太平洋和南海有2个台风生成,较常年同期偏少;另有台风苏拉和海葵登陆我国,接连影响华南导致极端强降水,登陆个数接近常年同期。全国共出现6次大范围较强降水过程及2次强对流天气过程,江苏宿迁、盐城遭受多个强龙卷风袭击。

台风“暹芭”引发南海区强降雨的环境条件分析

利用常规气象资料、NCEP再分析资料、ECMWF的ERA5再分析资料等,对2022年7月2日午后到3日早晨南海区强降雨的环境条件进行分析,结果表明:台风“暹芭”螺旋雨带与宽广的季风区相连,在低空急流的作用下为南海区强降雨提供了充沛的水汽和能量;水汽通量强度强、厚度高及水汽辐合增强是南海区出现强降雨的重要原因;垂直上升运动强,维持时间长,高低空辐合辐散场配置较好,为强降雨发生提供了有利的动力条件;低层不稳定能量充足,500 hPa以下中低层存在对流不稳定,南海区强降雨在这种对流性不稳定条件下发生,低空急流输送的水汽和不稳定能量为强降雨的维持提供了有利的暖湿条件。

强台风作用下开关站构支架破坏及加固分析

沿海地区的频繁强台风对电网的稳定运行带来了极大的威胁。笔者以某核电站500 kV开关站为研究背景,对其出线钢构架、设备钢支架在15级强台风上限风速45.4 m/s作用下的受力进行分析,结果表明:构架柱、地线柱、避雷针无法满足该荷载条件下的规范要求,构架梁和设备支架杆满足要求。针对不满足要求的构件,结合整改工程量和停电时间的因素,提出更换地线柱和避雷针的方案,构架柱在出线侧进行原位加固的方案。同时提出通过调整导线跨度和弧垂控制导线拉力的思路。

台风活动与陕西极端暴雨的相关特征分析

利用1970～2003年35年间出现在陕西的极端暴雨与近海台风活动的资料,对其进行时空分布统计分析和天气学、动力学诊断以及卫星云图等综合分析,结果表明:两者的相关率接近87%;7、8两个月台风影响最为显著。与华北、东北地区比较,陕西的极端暴雨以远距离影响的台风活动为主。影响台风有两类,一类是台风在台湾岛附近登陆或以北海域活动的,其水汽、能量主要以850hPa层输送尤为明显,这类台风云系与暴雨区之间的晴空区明显。另一类是台风在海南、广东或广西一带登陆或移动,该类水汽、能量主要以700hPa层输送最为显著。当台风在125°E以西,且在13～33°N的范围内活动时,该类台风活动对陕西的强降水作用明显,是造成陕西极端暴雨的一个重要的因素。300hPa高空急流的先兆性对陕西极端暴雨具有一定的预报意义。影响台风的位置与影响云系对极端暴雨落区预报有帮助。

台风远外围大范围强对流天气成因综合分析

为加深对台风外围发生的强对流天气的认识,提高对华南地区强对流天气潜势预报和预警的能力,利用广东中尺度天气监测网的多普勒雷达、自动站资料和NCAR/NCEP的再分析资料等对2004年8月发生在台风云娜外围一次强对流天气的天气形势背景、水汽、CAPE、SI、WI、垂直速度和海风辐合等进行了综合分析。结果表明:华南前期受副热带高压和云娜外围下沉气流作用,地面连续高温,使低层大气内能不断积蓄;台风云娜向西北移动的过程中,华南上空的副热带高压和下沉气流减弱,在其外围弱低压槽、海风辐合和干线共同作用下触发了强对流;台风外围的稳定度具有明显的波动性,强对流在台风外围螺旋云带末端的高温、不稳定和相对高湿舌发生;风指数WI用于华南地区雷雨大风预报比其它指数更有效。