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1.
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
2.
The structural evolution of Typhoon Morakot(2009) during its passage across Taiwan was investigated with the WRF model. When Morakot approached eastern Taiwan, the low-level center was gradually filled by the Central Mountain Range(CMR), while the outer wind had flowed around the northern tip of the CMR and met the southwesterly monsoon to result in a strong confluent flow over the southern Taiwan Strait. When the confluent flow was blocked by the southern CMR, a secondary center(SC) without a warm core formed over southwestern Taiwan. During the northward movement of the SC along the west slope of the CMR, the warm air produced within the wake flow over the northwestern CMR was continuously advected into the SC, contributing to the generation of a warm core inside the SC. Consequently, a well-defined SC with a warm core, closed circulation and almost symmetric structure was produced over central western Taiwan, and then it coupled with Morakot's mid-level center after crossing the CMR to reestablish a new and vertically stacked typhoon. Therefore, the SC inside Morakot was initially generated by a dynamic interaction among the TC's cyclonic wind, southwesterly wind and orographic effects of the CMR, while the thermodynamic process associated with the downslope adiabatic warming effect documented by previous studies supported its development to be a well-defined SC. In summary, the evolution of the SC in this study is not in contradiction with previous studies, but just a complement, especially in the initial formation stage. 相似文献
3.
CLIMATIC CHARACTERISTICS OF TYPHOON PRECIPITATION OVER CHINA 总被引:2,自引:0,他引:2
The spatio-temporal characteristics of typhoon precipitation over China are analyzed in this
study. The results show that typhoon precipitation covers most of central-eastern China. Typhoon
precipitation gradually decreases from the southeastern coastal regions to the northwestern mainland. The
maximum annual typhoon precipitation exceeds 700 mm in central-eastern Taiwan and part of Hainan,
while the minimum annual typhoon precipitation occurs in parts of Inner Mongolia, Shanxi, Shaanxi and
Sichuan, with values less than 10 mm. Generally, typhoons produce precipitation over China during April
– December with a peak in August. The annual typhoon precipitation time series for observation stations
are examined for long-term trends. The results show that decreasing trends exist in most of the stations
from 1957 to 2004 and are statistically significant in parts of Taiwan, Hainan, coastal Southeast China and
southern Northeast China. The anomaly of typhoon precipitation mainly results from that of the general
circulation over Asia and the Walker Cell circulation over the equatorial central and eastern Pacific.
Typhoon torrential rain is one of the extreme rainfall events in the southeastern coastal regions and parts of
central mainland. In these regions, torrential rains are mostly caused by typhoons. 相似文献
4.
利用NCEP/NCAR全球格点资料和TRMM卫星资料,采用改进后的非地转湿Q矢量,对0908号台风"莫拉克"引起的台湾南部特大暴雨过程进行预报应用试验。试验结果表明:(1)850 hPa高度层的非地转湿Q矢量散度及水汽通量散度分布可以预报未来24 h暴雨的落区及其雨带的分布,暴雨发生在Q矢量散度梯度大值区靠近辐合区域,同时该区域要有水汽辐合中心,雨带分布与该梯度大值区分布基本一致。(2)Q矢量辐合区的倾斜式发展很好地描述了暴雨中心强对流系统垂直结构,强对流系统发展旺盛期出现在暴雨发生前的18 h,具有一定预报意义。(3)台风暴雨发生在次级环流的上升支附近,最强次级环流上升支出现在暴雨发生时期;次级环流中的上升气流从低层到高层的倾斜方向较好地描述了雨带的移动,次级环流的调整比雨带移动提前了24 h,具有较好的预报应用价值。 相似文献
5.
6.
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
7.
Using real analysis data of 1°×1° resolution of the National Center for Environmental
Prediction/National Center for Atmospheric Research (NCEP/NCAR), the nondivergent wind component
and irrotational wind component obtained by the harmonic-cosine(H-C) method, and the wind structure of
Typhoon Fung-Wong (coded 0808 in China) in 2008 was analyzed. The results indicated that the
irrotational component was advantageous over the total wind in reflecting both the changes in convergent
height and the asymmetrical convergence of Fung-Wong. In Fung-Wong, the nondivergent component was
larger than the irrotational component, but the latter was much more variable than the former, which was
obtained only from the wind partition method. Further analyses on the irrotational component
demonstrated that the location of the convergent center at lower levels was almost the same as the
divergent center during the development of Fung-Wong, and its convergent level was high in its life cycle,
with the most highest up to 400 hPa when it became stronger. After the typhoon landed in the provinces of
Taiwan and Fujian, respectively, its convergent center at lower levels was slowly detached from the
divergent center at high levels and the convergent height was also depressed from high levels to lower
levels. Gradually, this weakened the intensity of Fung-Wong. This kind of weakening was slow and
Fung-Wong maintained its circulation for a long time over land because of its very thick convergent height.
Analyses on wind partitioning provided one possible explanation to why Fung-Wong stayed for a long time
after it landed. Furthermore, the asymmetric vertical ascending motion was induced by the asymmetric
convergence at lower levels. In general, when typhoons (such as Fung-Wong) land, the rainfall region
coincides with that of the convergence region (indicated by the irrotational component at lower layers).
This means that the possible rainfall regions may be diagnosed from the convergent area of the irrotational
component. For an observational experiment on typhoons, the convergent region may be considered as a
key observational region. 相似文献
8.
9.
青藏高原地区大气臭氧变化的研究 总被引:33,自引:4,他引:33
文中综述了对青藏高原夏季大气臭氧低值中心的出现和可能形成的机理的一些研究结果。发现了青藏高原在夏季存在大气臭氧总量低值中心的事实 ,研究了该低值中心的背景环流特征 ;证实了青藏高原地区确为对流层与平流层物质输送的通道之一 ,以及它对青藏高原臭氧低值中心形成所起的作用 ;并用数值模拟方法揭示了该低值中心的形成原因。另外用资料证实了青藏高原地区夏季不但存在大气臭氧低值中心 ,而且该低值中心是一个强大气臭氧递减中心的事实。最后介绍了用数值模拟方法来预测青藏高原地区大气臭氧未来变化的趋势。 相似文献
10.
IMPACTS OF UPPER-LEVEL COLD VORTEX ON THE RAPID CHANGE OF INTENSITY AND MOTION OF TYPHOON MERANTI (2010) 总被引:2,自引:0,他引:2
Typhoon Meranti originated over the western North Pacific off the south tip of the Taiwan Island in 2010.It moved westward entering the South China Sea,then abruptly turned north into the Taiwan Strait,got intensified on its way northward,and eventually made landfall on Fujian province.In its evolution,there was a northwest-moving cold vortex in upper troposphere to the south of the Subtropical High over the western North Pacific(hereafter referred to as the Subtropical High).In this paper,the possible impacts of this cold vortex on Meranti in terms of its track and intensity variation is investigated using typhoon best track data from China Meteorological Administration,analyses data of 0.5×0.5 degree provided by the global forecasting system of National Centers for Environmental Prediction,GMS satellite imagery and Taiwan radar data.Results show as follows:(1)The upper-level cold vortex was revolving around the typhoon anticlockwise from its east to its north.In the early stage,due to the blocking of the cold vortex,the role of the Subtropical High to steer Meranti was weakened,which results in the looping of the west-moving typhoon.However,when Meranti was coupled with the cold vortex in meridional direction,the northerly wind changed to the southerly at the upper level of the typhoon;at the same time the Subtropical High protruded westward and its southbound steering flow gained strength,and eventually created an environment in which the southerly winds in both upper and lower troposphere suddenly steered Meranti to the north;(2)The change of airflow direction above the typhoon led to a weak vertical wind shear,which in return facilitated the development of Meranti.Meanwhile,to the east of typhoon Meranti,the overlapped southwesterly jets in upper and lower atmosphere accelerated its tangential wind and contributed to its cyclonic development;(3)The cold vortex not only supplied positive vorticity to the typhoon,but also transported cold advection to its outer bands.In conjunction with the warm and moist air masses at the lower levels,the cold vortex increased the vertical instability in the atmosphere,which was favorable for convection development within the typhoon circulation,and its warmer center was enhanced through latent heat release;(4)Vertical vorticity budget averaged over the typhoon area further shows that the intensification of a typhoon vorticity column mainly depends on horizontal advection of its high-level vorticity,low-level convergence,uneven wind field distribution and its convective activities. 相似文献
11.
THE CHARACTERISTICS OF HIGH WIND DISTRIBUTION IN CHINA'S COASTAL REGION AND THEIR CAUSES 总被引:1,自引:1,他引:0
This work investigates the distribution of high winds above Beaufort scale 6 in the offshore zones of China using high-resolution satellite measurements.A numerical experiment is carried out in order to find out the effects of Taiwan Island on the formation of strong winds.The analysis indicates that the distribution of high wind occurrence is similar to that of the average wind velocity in winter.High winds tend to be anchored in special topographical regions,such as the Taiwan Strait,the Bashi Channel and the southeast coast of Vietnam.High winds occur much more frequently over the warmer than the colder flank of Kuroshio front as it meanders from Taiwan to Japan.The frequency of high winds decreases drastically in spring.The Taiwan Strait maintains the largest high wind occurrence.Besides,high winds remain frequent in the Bashi Channel,the southeast tip of Taiwan Island and the warmer flank of Kuroshio front.In summer,high winds generally occur infrequently except over a broad region off the southeast coast of Vietnam near 10°N and the frequency there decreases from southwest to northeast.High winds around Taiwan Island present near axisymmetric distribution with larger frequency along southeast-northwest direction and smaller frequency along southwest-northeast direction.The dominant direction of high winds exhibits a counterclockwise circulation surrounding the island.The frequency of high winds increases rapidly in autumn and almost repeats the distribution that appears in winter.The simulation results suggest that the effects of Taiwan Island topography on high winds vary with seasons.In winter,topography is the major cause of high winds in the surrounding oceanic zones.High winds in both Taiwan Strait and the southeast corner of the island disappear and the frequency decreases gradually from south to north when the terrain is removed.However,in summer,high wind frequency derived from two simulations with and without terrain is almost identical.We attribute this phenomenon to the factors which are responsible for the formation of high winds. 相似文献
12.
一九八一年初夏东南亚地区大气热源结构及其对经向环流的影响 总被引:4,自引:1,他引:3
本文用热力学方程和水汽连续方程计算了东南亚地区1981年初夏的大气热源和水汽汇的分布情况。文章讨论了大气热源的演变与该地区经向垂直环流的相互关系,并讨论了大气热源和经向环流在南海和中南半岛的差异。分析结果表明,经向环流圈与大气冷热源的分布密切相关。东亚季风建立后的大气热源中心在南海北部,热汇区在赤道附近,相应的最大上升气流也出现在南海下沉区主要在赤道南侧,而且南海的经向环流比中南半岛的要强盛的多。大气热源对于经向环流圈的形成和维持有很大的作用。 相似文献
13.
复杂地形上三维局地环流的模拟研究 总被引:3,自引:2,他引:3
利用复杂地形上的三维雾模式研究了重庆市冬季局地环流的形成、演变过程及其主要特征。结果表明,重庆市冬季夜间四周山区有下坡冷空气向市中区汇集,中午前后逐渐向谷风环流转变。这种局地环流结构对重庆雾的生消起着重要作用。并就成雾、山脉、初始大气稳定度等因子对局地环流的影响进行了数值试验。 相似文献
14.
2006年西北太平洋热带气旋生成频数和源地异常的成因分析 总被引:6,自引:2,他引:4
根据西北太平洋编号台风资料、Hadley中心的SST资料和NCAR/NCEP的再分析资料,对2006年西北太平洋热带气旋活动特点进行分析,就台风季热带气旋的活动特征和成因进行研究。(1) 海表温度的异常引起的沃克环流异常造成了2006年热带气旋频数相对于多年平均偏少。(2) 越赤道气流强并且有较好对流匹配的区域易生成热带气旋。较强的对流运动,良好的越赤道气流、环流条件和切变条件的匹配是2006年8月较其它月份生成较多热带气旋的原因。(3) 异常东南风环流有利于引导生成的热带气旋以西北路径西行进入我国沿海并登陆。异常西风环流不利于热带气旋向西运动登陆我国。(4) 垂直风切变异常太大,不利于气旋生成和发展。 相似文献
15.
0908号台风"莫拉克"(Morakot)在台湾岛引发了24 h超过1000 mm的强烈降水,与其缓慢西行过岛密切相关。本文利用NCEP-GFS实时分析场资料(0.5°×0.5°)、中央气象局台风资料库关于我国台湾地面气压场资料和中尺度数值模式WRF模拟结果,分析了台风Morakot在台湾岛附近缓慢西行成因。结果表明:(1)西太平洋副热带高压减弱东退、与台风"天鹅"(Goni,0907)的"藤原效应"是Morakot在台湾岛附近移速减慢的环境因素,而台风结构变化也是其缓慢过岛西行的一个主要原因;(2)台风过岛过程中,由于地形作用,Morakot环流内诱生低压活跃,先后或同时出现在岛屿东西两侧,使台风环流出现非对称松散结构;(3)在台湾岛西侧诱生低压中心取代东侧原台风中心形成不连续路径过程中,台风经历了低层环流从分裂到重组,正垂直涡度柱从垂直到倾斜再恢复垂直的变化过程,这是Morakot过台湾岛缓慢西行的一个重要原因;(4)Morakot西行登岛过程中环境引导气流主要是偏南气流,而包含诱生低压的扰动引导气流则为偏东气流。扰动引导气流虽是小量,但其纬向分量占环境引导气流纬向分量的比率从7%增至26%,较好地指示了Morakot的西行趋势,也说明地形诱生低压导致的台风结构变化是其过岛西行和缓慢移动的一个重要原因。 相似文献
16.
华南秋旱的大气环流异常特征 总被引:4,自引:2,他引:2
利用实测降水量资料及NCEP再分析资料, 通过统计方法分析了华南秋旱及其相关的环流异常特征。结果发现, 华南秋旱以全区性的干旱出现居多。华南秋旱事件对应的同期海温异常分布型大致可分两类。一类是热带中东太平洋的负海表温度距平 (SSTA) 区的极值中心位于赤道东太平洋, 在海洋性大陆和热带西太平洋有马蹄形的正SSTA, 而在热带西印度洋, 南海至日本东、 南部西北太平洋是负SSTA; 另一类是热带中东太平洋正SSTA极值中心位于赤道中太平洋, 热带—副热带西太平洋、 南海和热带印度洋为负SSTA区, 副热带北太平洋东部和南太平洋东部为显著的正SSTA。 与第一类SSTA相关的华南秋旱与海洋性大陆区域上空的上升运动异常增强 (与其下垫面海温异常偏暖有关)。而与第二类SSTA相关的华南秋旱则与中纬度环流的长波调整造成的东北亚上空的异常上升运动距平有关。而两类华南秋旱都是通过大气环流对华南地区的异常下沉运动产生强迫作用而产生的。另外, 华南秋旱还与菲律宾和台湾东侧洋面上空出现上升运动距平有关。两类华南秋旱都与南海中北部热带气旋频数偏少, 菲律宾和台湾东侧热带气旋频数偏多有关, 因此, 使得登陆华南的热带气旋偏少, 导致华南秋季干旱。 相似文献
17.
台风"碧利斯"的结构与江西暴雨诊断分析 总被引:8,自引:6,他引:8
利用T213资料、自动气象站加密资料和常规观测资料等,研究分析了0604号台风“碧利斯“的环流背景、移动路径、内部结构和外围暴雨的分布特征,并将其与0505号台风“海棠“、0513号台风“泰利“、0414号台风“云娜“,进行了对比分析.研究结果表明,台风暴雨与台风环流场、热力场的不对称有关,并不一定总是集中在环流中心附近.无论是对称结构,还是非对称结构,降水中心都与强对流云带位置相对应.“碧利斯“先西北行后向西折的路径,主要是受强大稳定的副热带高压引导,并表现为明显的不对称结构,东侧、南侧的积云对流较为旺盛,降水主要集中在移动路径的第三象限;850 hPa台风环流场表现为南部环流强盛,南海季风为西南急流的稳定维持提供了充沛的水汽条件;局地地形激发深厚的上升运动,进而产生庐山和赣南南部山区的大暴雨天气;垂直运动、散度、涡度、水汽通量、假相当位温等各物理量场,均与外围暴雨区有较好的对应关系. 相似文献
18.
The formation mechanism of diurnal rainfall in Taiwan is commonly recognized as a result of local forcings involving solar thermal heating and island-scale land–sea breeze (LSB) interacting with orography. This study found that the diurnal variation of the large-scale circulation over the East Asia-Western North Pacific (EAWNP) modulates considerably the diurnal rainfall in Taiwan. It is shown that the interaction between the two LSB systems—the island-scale LSB and the large-scale LSB over EAWNP—facilitates the formation of the early morning rainfall in western Taiwan, afternoon rainfall in central Taiwan, and nighttime rainfall in eastern Taiwan. Moreover, the post-1998 strengthening of a shallow, low-level southerly wind belt along the coast of Southeast China appears to intensify the diurnal rainfall activity in Taiwan. These findings reveal the role of the large-scale LSB and its long-term variation in the modulation of local diurnal rainfall. 相似文献
19.
针对实际预报工作中,台风主观预报和模式风场客观预报不一致的问题,基于南海台风模式(CMATRAMS)资料、实时台风主观预报资料,采用一种考虑下垫面作用的动力解释应用方法TCwind,得到了能较合理描述台风风场的数学方程组,结合网格预报技术,进行台风主观预报和模式风场的主客观融合,实现了台风风场预报的订正,能为网格预报提供有效辅助。以实时台风主观预报为评判标准,检验评估了2018—2019年西北太平洋所有台风的融合订正效果,发现订正后的台风风场中心能较准确地向主观路径预报调整;台风中心附近最大风速相较模式显著增强,趋近主观强度预报;台风环流风速比模式原始风速增大,风场结构分布相比模式原始风场也更合理。 相似文献
20.
POSSIBLE IMPACTS OF MADDEN-JULIAN OSCILLATION ON THE SEVERE RAIN-SNOW WEATHER IN CHINA DURING NOVEMBER 2009 总被引:4,自引:2,他引:2
Possible relationships between MJO and the severe rain-snow weather in Eastern China during November of 2009 are analyzed and results show that a strong MJO process is one of the strong impact factors.MJO is very active over the Indian Ocean in November 2009.Especially,it maintains 9 days in MJO phase 3,just corresponding to the two strongest rain-snow processes.Composites of MJO events show that when the MJO convective center is located over the Indian Ocean,the probability of rainfall is significantly increased and the temperature is lower than normal in eastern China,which is consistent with the situation in November of 2009.Atmospheric circulation anomalies of mid-and higher-latitudes can be influenced by the tropical MJO convection forcing and this influence could be realized by teleconnection.When the MJO is over the Indian Ocean,it is favorable for the maintenance of a circulation pattern of two ridges versus one trough at mid-and higher-latitudes.Meanwhile,the western Pacific subtropical high is stronger and more westward than normal,and a significant convective belt appears over eastern East Asia.All these circulation anomalies shown in the composite result also appeared in the observations in November 2009,which indicates the general features of relationships between the MJO and the circulation anomalies over the extratropics.Besides the zonal circulation anomalies,the MJO convection can also lead to meridional circulation anomalies.When the MJO convection is located over the Indian Ocean,the western Pacific is dominated by anomalous descending motion,and the eastern East Asia is controlled by strong convergence and ascending motion.Therefore,an anomalous meridional circulation is formed between the tropics and middle latitudes,enhancing the northward transportation of low-level moisture.It is potentially helpful to understanding and even forecasting such kind of rain-snow weather anomalies as that in November 2009 using MJO. 相似文献