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1.
A diagnostic study of the asymmetric distribution of rainfall during the landfall of typhoon Haitang (2005) 总被引:1,自引:0,他引:1
The precipitation during landfall of typhoon Haitang (2005) showed asymmetric structures (left side/right side of the track). Analysis of Weather Research and Forecasting model simulation data showed that rainfall on the right side was more than 15 times stronger than on the left side. The causes were analyzed by focusing on comparing the water vapor flux, stability and upward motion between the two sides. The major results were as follows: (2) Relative humidity on both sides was over 80%, whereas the convergence of water vapor flux in the lower troposphere was about 10 times larger on the right side than on the left side. (5) Both sides featured conditional symmetric instability [MPV (moist potential vorticity) <0], but the right side was more unstable than the left side. (6) Strong (weak) upward motion occurred throughout the troposphere on the right (left) side. The Q vector diagnosis suggested that large-scale and mesoscale forcing accounted for the difference in vertical velocity. Orographic lift and surface friction forced the development of the asymmetric precipitation pattern. On the right side, strong upward motion from the forcing of different scale weather systems and topography caused a substantial release of unstable energy and the transportation of water vapor from the lower to the upper troposphere, which produced torrential rainfall. However, the above conditions on the left side were all much weaker, which led to weaker rainfall. This may have been the cause of the asymmetric distribution of rainfall during the landfall of typhoon Haitang. 相似文献
2.
Development of an Integrated Vertical-Slantwise Convective Parameterization Scheme and Its Associated Numerical Experiments 
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下载免费PDF全文 FEI Jianfang WU Rongsheng HUANG Xiaogang WANG Yuan CHENG Xiaoping 《Acta Meteorologica Sinica》2011,25(4):405-418
An integrated vertical-slantwise convective parameterization scheme,based on the vertical Kuo-Anthes and the slantwise Nordeng convective parameterization schemes,is introduced into the MM5 model.By employing the MM5 model with the proposed scheme,numerical simulations of a snowstorm event that occurred over southern China on 28 29 January 2008 and of Typhoon Haitang (2005) are conducted.The results indicate that during the snowstorm event,the atmosphere was convectively stable in the vertical direction but with conditional symmetric instability (CSI) in the lower troposphere,and when the area of CSI developed and extended to upper levels,strong rising motion occurred and triggered the release of large amount of energy,producing enhanced convective precipitation with the total precipitation much closer to the observation.The development and strengthening of CSI corresponded to changes in the intensity of snowfall,convergence,and ascending motions of air,revealing that CSI was responsible for the initiation and growth of the snowstorm.The results from a 72-h explicit simulation of Typhoon Haitang indicate that CSI occurred mainly at lower levels with a well-defined spiral structure,and it tended to have a larger impact on the intensity of typhoon than on its track.The minimum pressure at the typhoon center for the 72-h runs with the integrated vertical-slantwise convective parameterization scheme was on average 3 hPa (maximum 8 hPa) lower than that from the runs with only the vertical cumulus parameterization scheme.Introducing the influence of CSI into the model has improved the warm core structure at the middle and upper levels of the typhoon,with stronger and persistent upward motions causing increased precipitation,and the latent heat released through convection in turn made the typhoon develop further. 相似文献
3.
台风“海棠”特大暴雨数值模拟研究 总被引:12,自引:1,他引:12
在福建中北部登陆的台风,往往会严重影响浙江,尤其值得注意的是台风引起特大暴雨经常会发生在浙江东南沿海的南雁荡山区和北雁荡山区,2005年在福建省连江黄歧登陆的台风"海棠"(0505)对浙江东南沿海造成严重影响,是这类台风比较典型个例。文中利用非静力模式MM5模拟"海棠"台风在浙东南沿海造成的特大暴雨,模拟结果与实况对比分析表明,模式较好地模拟了台风降水强度和分布,特别是成功模拟出南雁荡山区特大暴雨中心(南部暴雨区)和雁荡山区特大暴雨中心(北部暴雨区);运用高时空分辨率模拟资料对特大暴雨成因进行诊断分析表明,南部暴雨区涡度低层到高层向西倾斜结构和北部暴雨区高低空强辐散辐合的耦合结构有利于形成暴雨区强烈上升运动,环境风场垂直切变产生次级环流进一步加强暴雨区上升运动;暴雨区持续不稳定层结和特殊水汽输送通道为特大暴雨提供热力条件和水汽条件。最后对浙南闽北地形对台风特大暴雨影响进行数值敏感性试验表明,温州南、北雁荡山脉地形等高线与台风水汽输送路径正交是造成特大暴雨的重要原因,地形使暴雨增幅明显,地形越高对暴雨增幅越明显,降水分布更加不均匀。比较台风造成南、北特大暴雨条件,发现两者既有环境风场垂直切变产生次级环流进一步加强暴雨区上升运动、持续不稳定层结以及地形对暴雨增幅作用等相同之处,又有动力结构、维持持续不稳定层结条件以及水汽输送等不同之处。 相似文献
4.
Development of an integrated vertical-slantwise convective parameterization scheme and its associated numerical experiments 下载免费PDF全文
下载免费PDF全文 An integrated vertical-slantwise convective parameterization scheme, based on the vertical Kuo-Anthes and the slantwise Nordeng convective parameterization schemes, is introduced into the MM5 model. By employing the MM5 model with the proposed scheme, numerical simulations of a snowstorm event that occurred over southern China on 28-29 January 2008 and of Typhoon Haitang (2005) are conducted. The results indicate that during the snowstorm event, the atmosphere was convectively stable in the vertical directi... 相似文献
5.
“海棠”台风降水非对称分布特征成因的定量分析 总被引:19,自引:2,他引:17
2005年7月19日08时~20日08时“海棠”(Haitang)台风登陆福建省前后24小时期间, 带来一次明显降水过程, 且台风北侧降水较南侧强, 呈明显非对称分布。利用WRF模式对此次降水过程进行了数值模拟, 基于模拟结果, 不仅分析研究了相对湿度、 垂直上升运动场, 同时还进行改进的湿Q矢量诊断分析, 以及计算分析地形抬升和地表摩擦的强迫作用, 定量分析“海棠”台风降水非对称分布特征形成的可能成因。结果表明:(1) WRF模式成功地模拟出了此次降水非对称分布特征、主要降水落区, 以及300 mm以上极端强降水的强度、位置, 模拟效果令人鼓舞。(2) 垂直上升运动条件可能是造成降水非对称分布特征的主要因素。(3) 台风北侧改进的湿Q矢量散度辐合强度明显较其南侧强, 进一步计算分析发现, 改进的湿Q矢量散度强迫产生的降水场也呈明显非对称分布, 且台风北侧强于南侧。(4) 地形因子强迫产生的降水强度约是改进的湿Q矢量散度强迫产生的降水强度的1.6~2.5倍, 且地表摩擦作用强迫产生的降水强度约是地形抬升作用强迫产生的降水强度的2~3倍。 相似文献
6.
"海棠"(Haitang)台风降水非对称分布成因初步研究 总被引:1,自引:5,他引:1
2005年第5号台风"海棠"登陆福建省前后所引发的降水呈明显的南北非对称分布特征。逐时MT1R静止气象卫星IR1云图分析揭示,陆地上台风环流云系呈南北非对称分布。浓白色的降水云区主要位于台风北侧,而在此期间,台风南侧云系则相对较暗。在WRF模式成功模拟的基础上,分析模拟的700 hPa高度上相对湿度和垂直上升运动场表明,垂直上升运动场呈现出与降水场相似的南北非对称分布特征,而台风南北两侧空气相对湿度呈均匀分布。进一步改进的湿Q矢量(Q*)以及地形抬升和地表摩擦作用(简称地形因子)分析表明,Q*矢量散度辐合区、地形因子强迫产生的垂直上升速度区都呈南北非对称分布特征。综合考虑指出,"海棠"台风降水分布的南北非对称性,主要由动力因子(Q*矢量(相当于上升运动)、地形抬升与地表摩擦以及垂直上升运动场)引起的,而热力条件(包括相对湿度)是不重要的。 相似文献
7.
利用地面加密自动站观测资料、多普勒天气雷达及NCEP格点再分析资料,对2018年第22号台风“山竹”登陆前后环境场、动力热力场结构变化特征进行了分析,并初步探讨台风造成广西强降水分布异常的成因。(1) 200 hPa南亚高压稳定维持、西南季风与越赤道气流、西太平洋气流卷入提供水汽和能量是台风登陆后强度减弱缓慢的重要因素。(2)台风登陆移入广西过程中,其中高层θse漏斗状结构、正涡度柱状结构维持,东侧和北侧低层有深厚入流辐合上升,高层有明显出流。(3)水平风场的不对称分布导致台风东侧到北侧存在明显的风向切变和风速辐合,出现垂直螺旋度正值中心和强水汽辐合区,对应有螺旋对流回波带发展、维持,这可能是“山竹”强降水出现在台风偏北侧的重要原因。(4)云贵高原冷空气的侵入加剧了热力不稳定,加上地形抬升增幅作用,导致桂北和桂西持续强降水。(5) “山竹”降水分布与低层湿位涡负值区有较好对应,强降水主要出现在湿正压项(MPV1)负值中心附近和MPV1负值区与湿斜压项(MPV2)正值区相叠加的区域。 相似文献
8.
对强台风“纳沙”(1117)登陆海南岛前后降水非对称性的分析 总被引:3,自引:2,他引:3
利用NCEP 1 °×1 °再分析资料和卫星资料,以2011年强台风“纳沙”为例,分析了“纳沙”登陆海南岛前后的降水特征,并分析了“纳沙”周围TBB、湿度、水平风速和垂直速度在其路径两侧分布的不对称性,并从空间结构的分布上讨论了降水分布的可能成因。结果表明:登陆海南岛前后,“纳沙”的降水在其路径两侧的分布呈显著的不对称性,强降水主要集中在其路径左侧。“纳沙”除温度距平的分布较对称外,其它物理量在台风周围的空间结构均表现为显著的不对称性:(1)TBB,在路径左侧的强对流云系的强度和范围均比右侧大;(2)湿度,路径左侧的湿区范围比路径右侧大;(3)水平风速,台风位于海上和登陆时,路径右侧的最大风速比左侧强,台风登陆时其左右两侧最大风速相差20 m/s;在登陆前和登陆后路径右侧的相等大风速区范围比左侧大;(4)垂直速度,路径左侧的上升运动比右侧强,尤其在台风登陆时左侧的垂直上升速度比右侧大-2.4 Pa/s。通过对比上述物理量的非对称分布与降水分布可知,湿度可能是台风降水非对称分布的原因之一,而垂直速度可能是造成“纳沙”非对称降水的主要原因。另外,从垂直风切变作用进一步探究台风降水非对称性的形成机制,结果发现“纳沙”登陆前后的强降水均集中在顺切变方向及其左侧。垂直风切变可较好地解释路径左侧的强垂直上升运动和强降水区。此外海南岛的地形条件也导致“纳沙”在登陆期间海南岛西部的降水显著增加。 相似文献
9.
YU Zhenshou NI Donghong GAO Shouting MIN Jinzhong REN Hongxiang 《Acta Meteorologica Sinica》2008,22(2):224-238
Typhoons landing in the central and north of Fujian Province often seriously impact Zhejiang Province. Much attention has been given to exceptionally torrential rain in the South/North Yandang mountainous regions in the southeast of Zhejiang Province associated with typhoon-landing. Typhoon Haitang (2005) is a typical case of such a category, which landed in Huangqi Town of Lianjiang County in Fujian Province, and meanwhile greatly impacted Southeast Zhejiang. A numerical simulation has been performed with the PSU/NCAR non-hydrostatic model MM5V3 to study the torrential rain associated with Typhoon Haitang. The comparison of simulated and observed rainfalls shows that the MM5V3 was able to well simulate not only the intensity but also the locations of severe heavy rain of Typhoon Haitang, especially the locations of the south/north heavy rain center areas in the South/North Yandang mountainous regions. Meanwhile, the diagnostic analysis has been also carried out for better understanding of the severe heavy rain mechanism by using the model output data of high resolution. The diagnostic analysis indicates that the westward tilt of the axis of vorticity from lower layer to upper layer over the south heavy rain center area and the coupled structure of convergence in the lower layer and divergence in the upper level over the north heavy rain center area, were both propitious to stronger upward motion in the layers between the mid and upper atmosphere, and the secondary circulation induced by the vertical shear of the ambient winds further strengthened the upward motion in the heavy rain areas. After Haitang passed through Taiwan Island into the Taiwan Strait, the water vapor east of Taiwan Island was continuously transferred by typhoon circulation towards South Wenzhou, leading to the torrential rainfall in the South Yandang mountainous region south of Wenzhou. Subsequently~ Haitang moved northwards, the water vapor belt east of Taiwan Island slowly advanced northwards, the precipitation rate obviously enhanced i 相似文献
10.
台湾地形对海棠台风影响的数值模拟研究 总被引:4,自引:3,他引:1
应用美国国家大气研究中心(NCAR)研发的WRF(Weather Research and Forecasting)气象模式,研究海棠台风(2005)接近并登陆台湾岛的过程中的强度、结构的演变,以及地形强迫作用对台风的影响.对模拟结果的评估表明,在整个海棠台风(2005)模拟实验期间,WRF模式很好地抓住了台风海棠强风,低中心气压的高强度特征.对引起台风降水的中尺度系统的分析表明,一方面台风环流与中央山脉地形共同作用激发出垂直次级环流在降水区域产生强烈的上升运动;另一方面,水平风场源源不断给该地区输送暖湿空气,为对流发展提供充足的水汽.分析结果表明中央山脉地形与台风环流场之间的配置形势对台风降水有着重要的影响. 相似文献
11.
本文利用西沙群岛、东沙群岛、南海沿岸陆地及船舶等探空资料和航空、卫星、地面雷达等天气报告资料,对8616号台风的动力学特征进行了计算和分析。结果表明,该台风风速分布不对称,气旋性最大切向风位于台风右前象限,风速的垂直切变随台风的加强而减弱。最强的流入位于台风南半圆300hPa以下,流入最大值在700hPa附近。高层最强的反气旋流出在150—100hPa,流出主要位于台风北半圆。此外,该台风的垂直运动分布与台风的发展及所处的位置有密切的关系。 相似文献
12.
THE EFFECTS OF EXTERNAL FORCING,DISSIPATION AND NONLINEARITY ON THE SOLUTIONS OF ATMOSPHERIC EQUATIONS 总被引:1,自引:0,他引:1 下载免费PDF全文
下载免费PDF全文 Based on the primitive equations of the atmosphere,we study the effects of external forcing.dissipation and nonlinearity on the solutions of stationary motion and non-stationary motion.Theresults show that the asymptotic behavior of solutions of the forced dissipative nonlinear system isessentially different from that of the adiabatic non-dissipative system,the adiabatic dissipativesystem,the diabatic non-dissipative system and the diabatic dissipative linear system,and that thejoint action of external forcing,dissipation and nonlinearity is the source of multiple equilibria.From this we can conclude that the important actions of diabatic heating and dissipation must beconsidered in the models of the long-term weather and the climate. 相似文献
13.
1983年长江中游梅雨期的热源和热汇分析 总被引:14,自引:0,他引:14
本文用曲面拟合和收支方程计算了5—7月长江中游地区梅雨前后不同时段热源和热汇的分布,得到如下一些结果:(1)梅雨期的热源主要由降水产生的凝结潜热造成。最大热源位于700—400hPa层中。降水的性质一般以连续性降水为主,但有时也发生明显的对流活动。在无雨期,在深厚的对流层大气中是冷却的,这主要由辐射冷却引起。因而梅雨时期的大气性质十分类似于热带大气。(2)梅雨期的降水以及热源热汇分布有明显的日变化。一般下午为明显的热源或更强的对流热输送。(3)在梅雨期及其前后感热和蒸发的作用不能忽略。在无雨或少雨期,蒸发是形成水汽源汇的主要因子。 相似文献
14.
Based on the primitive equations of the atmosphere,we study the effects of external forcing.dissipation and nonlinearity on the solutions of stationary motion and non-stationary motion.The results show that the asymptotic behavior of solutions of the forced dissipative nonlinear system is essentially different from that of the adiabatic non-dissipative system,the adiabatic dissipative system,the diabatic non-dissipative system and the diabatic dissipative linear system,and that the joint action of external forcing,dissipation and nonlinearity is the source of multiple equilibria.From this we can conclude that the important actions of diabatic heating and dissipation must be considered in the models of the long-term weather and the climate. 相似文献
15.
A rainfall that occurred during 0200–1400 Beijing Standard Time(BST)25 August 2008 shows the rapid development of a convective system,a short life span,and a record rate of 117.5 mm h-1for Xujiahui station since 1872.To study this torrential rainfall process,the partitioning method of Q vector is developed,in which a moist Q vector is first separated into a dry ageostrophic Q vector(DQ)and a diabatic-heating component.The dry ageostrophic Q vector is further partitioned along isothermal lines in the natural... 相似文献
16.
By using WRF mesoscale model, this paper carries out a numerical simulation and diagnostic
analysis of the structural characteristics of the asymmetric spiral rain bands around the landing of Typhoon
Haitang during the period of July 19 to 20, 2005. The result indicated that the two rainbands associated
with the precipitation centre was mainly located northeast of the typhoon centre. The movement and
intensity of the southern rainband corresponded well with the 850-hPa positive vorticity band from 0200 to
1800 UTC July 19, 2005. Under the effect of cyclonic circulation, the positive vorticity band at 850 hPa
connected with a southern rain band, leading to the intensification of rainfall in the southern centre of the
precipitation. The southward rainband gradually moved toward and then merges with the northward one,
strengthening the rainfall in the northern centre of the precipitation. Besides, the relationship between the
heavy rainfall and the divergence field of vertical shear wind in the high altitude is analyzed. Finally, the
relationship is revealed between the development of the vertical component of convective vorticity vector
and the rainfall near the two centres of precipitation in the low altitude. 相似文献
17.
本文使用常规观测资料、四川省自动站降水资料、0.1°×0.1°的FY-2E云顶亮温资料和1°×1°的NCEP再分析格点资料对2012年7月20~23日四川东部强降水过程的主要影响系统、水汽源地、动力、热力条件等进行诊断分析,结果表明:(1)本次暴雨过程中伴有500hPa高空槽东移至四川并向南加深发展,槽后冷空气与槽前暖湿气流在四川汇合,低层有低涡发展,配以高低空急流耦合的有利形势;(2)暴雨前期水汽主要来源于孟加拉湾,随着南海台风西进,其外围偏东气流向西输送增强,西南暖湿气流北上受到抑制,使得雨带南压;(3)降水以对流性降水为主,暴雨期间水汽凝结潜热在对流层中低层起主要作用,强上升运动将低层的潜热加热向上输送,形成高空的热源中心,强降水期间大气的加热是与大气的垂直上升运动密切相关的;在本次暴雨过程垂直输送项是视热源Q1和视水汽汇Q2的主要贡献者,尤其是在强降水阶段;(4)在低涡在发展阶段,低层正涡度局地变化项首先得到发展,在低涡减弱阶段,正涡度局地变化项的峰值中心由低层向中低层抬升;(5)中尺度对流系统与小时降水分布一致,MCS的发展是触发降水的重要因素之一。 相似文献
18.
贺海晏 《热带气象学报(英文版)》1995,1(1):12-22
A basic equation governing the movement of a typhoon has been derived based on the system of primitive equations of motion in the atmosphere. The role of several forcing factors which cause the deviation of the typhoon from the steering current have been discussed based on the governing equation. What is presented in Part Ⅰ is a theoretical analysis on the effects of diabatic heating and the horizontal temperature distribution. It is shown that the accelerations of a typhoon caused by diabatic heating and temperature advection coincide with the direction of the volume-averaged "diabatic steering velocity" QV and the "steering velocity of temperature advection" ATV (V is the air velocity,Q the diabatic heating rate and AT the temperature advection ), respectively. The precipitation (or condensation heating) on the right (left) side of a typhoon will accelerate (decelerate) the typhoon. The precipitation in the front (rear ) of the typhoon will turn it to the left (right) of its ordainal path. A typhoon will speed up (slow down) when it moves towards a region of cold (warm) air. 相似文献
19.
应用非静力平衡中尺度模式MM5(V3.6),对0414号台风Rananim在登陆期间移动路径和所产生的降水进行了数值模拟研究,模式较好地再现了台风Rananim的移动路径和所产生的降水,但模拟的过程降雨量与实况值还有所偏差。多普勒雷达探测资料表明,台风Rananim登陆期间,强回波带出现在台风移动的右前方,螺旋云带中镶嵌着大量的对流云团;垂直液态水含量的高值区出现在台风中心的西北侧。作者通过在浙江、福建东部沿海一带进行有无地形的数值对比试验,着重讨论了台风登陆期间地形对台风降水、台风结构特征变化的影响。结果表明:(1)台风登陆期间, 地形的影响对台风降雨量有明显的增幅作用。由地形强迫产生的降雨量和地形走向相一致,迎风坡降雨量增加,背风坡降雨量减少,地形影响使浙江东部一带增加的平均降雨量约占该地区模拟平均总降雨量的40%左右。(2)台风登陆期间,地形的强迫作用有利于在低层台风眼的西北侧形成明显的辐合带,高层为明显的辐散区;在中尺度环流场上,地形的影响有利于台风中心西北侧低层中尺度气旋性涡旋系统的发生发展,从而激发中尺度对流云团,形成中尺度雨团,造成了台风中心南北雨区和雨量的不对称分布。(3)地形的强迫作用,可以使台风流场局部发生改变。当地形强迫产生与台风环流同向的中尺度扰动时,将使台风环流局部明显增强;当地形强迫产生与台风环流反向的中尺度扰动时,将使台风环流局部明显减弱。(4)台风登陆期间,地形的影响可以使台风靠近陆地一侧眼壁内的垂直上升速度增大,位涡明显增强,从而造成台风涡旋的增强。 相似文献
20.
大连两次台风暴雨过程对比分析 总被引:1,自引:0,他引:1
利用常规气象资料、加密气象自动观测站资料及NCEP再分析资料对2017年8月3日和2012年8月3日发生在大连地区的“海棠”(1710)和“达维”(1210)两次台风暴雨过程进行对比诊断分析。通过对台风路径、环流形势、双台风相互作用等方面进行对比分析。结果表明:这两次台风暴雨过程的降水系统为典型的双台风降水模型,在两个台风的北部都有不同强度的冷空卷入,触发对流不稳定,有利于中尺度暴雨云团的发展。低层850hPa上均有不同程度的切变辐合,高空有急流的建立;两次过程主要降水时段内强降水中心从低层到高层均出现了强烈的上升运动,暴雨中心上空维持着高层辐散、低层辐合。日本海南部存在台风迫使副热带高压转为径向型或形成阻塞高压,双台风或三台风与副热带高压之间形成的低空急流为暴雨的生成和维持提供了有利的动力条件和水汽条件。台风“海棠”残余环流与高空槽相结合,高空槽带来的冷空气更加强烈,锋生效果更加明显,这种情况更有利于强对流的发生发展。台风“苏拉”与影响大连的台风“达维”相互作用导致强降水阶段暖湿气流更加旺盛,降水持续时间更长,范围更广。 相似文献