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1.
1993年初夏中国东部沿海爆发性气旋形成条件的数值模拟试验 总被引:2,自引:0,他引:2
文中利用 PSU/NCAR中尺度模式 MM4对 1 993年 6月初发生在中国东部沿海地区的一次爆发性气旋进行了数值试验。结果表明 :初夏季节在中国东部沿海气旋爆发性发展必须具备下面两个条件 :(1 )高空南北支急流中分别存在发展的低槽系统 ,北部低槽伴有冷空气 ,南部低槽伴随有强暖湿空气 ,两低槽在中国东部沿海合并后形成一个深槽 ,引起地面气旋爆发性发展 ;(2 )东部沿海对流层低层形成一个强水汽通道 ,这个水汽通道将携带的大量和能量的暖湿空气向气旋爆发地区输送 相似文献
2.
一次飑线过程雷达回波特征及环境条件分析 总被引:9,自引:6,他引:3
利用常规资料、NCEP/NCAR再分析资料及多普勒天气雷达资料等,对2014年3月30—31日广东一次飑线过程进行了分析。重点分析了飑线发生的环流背景、环境特征、不稳定条件、垂直风切变等及多普勒雷达回波演变过程。结果表明:(1)此次飑线过程发生在中高纬地区稳定的阻塞形势下,从四川盆地东移的高空槽和低涡切变线是造成广东强对流天气的主要影响系统。(2)低空急流水汽输送、低层强水汽辐合、强低空垂直风切变和上干下湿的水汽垂直分布为飑线的发生、发展提供了必要的热力和动力条件。(3)强盛阶段飑线具有明显的阵风锋和弱回波通道,速度图上飑线北端为强的气旋式切变,南端为弱的反气旋式切变,在"弓形"回波顶点处有强的速度辐合。飑线内部后侧为一支倾斜向下的冷空气入流,前沿是一支沿冷空气爬升的暖空气入流。(4)在"弓形"回波顶部后侧长时间维持着向后倾斜的后侧入流急流RIJ(Rear Inflow Jets),RIJ对"弓形"回波的形成、地面大风和飑线的维持和快速移动具有重要的作用。 相似文献
3.
利用观测资料、FY-2C卫星云图和NCEP再分析资料,对2003年6月22—23日黄河下游的气旋爆发性发展过程进行天气学分析和中尺度数值模拟与诊断,研究这次爆发性气旋的发展特征。结果表明:河套高空槽东移与山东南部的切变线合并产生这次爆发性气旋。MM5数值模式可以很好地模拟夏季陆地爆发性气旋发展过程。夏季陆地爆发性气旋发生在与高度场气旋性弯曲相重合的高空急流出口区,气旋从急流出口区右侧向左侧行进的过程中爆发性发展。气旋爆发性发展需要高空有急流,低空有西南和东南风急流为其提供强的暖平流和水汽通道。气旋的爆发性发展伴随着上升运动强烈发展,上升运动区高层强辐散、低层强辐舍。气旋爆发性发展在高能场中,大气具有强对流性不稳定。 相似文献
4.
The evolution of an explosive cyclone off the East Asia coast in March 1979 is described.A shortwave trough in the southern branch of upper-level westerlies initiated the incipient cyclone.Later,a polar trough in the north amplified and became in phase with the southern shortwave to form a major trough.This major trough was responsible for the rapid intensification of the surface cyclone.In the early development stage,warm and moist air was transported northward to the developing area by a strong low-level jet.The ageostrophic wind associated with the low-level jet contributed to the frontogenesis,creating a favorable low-level environment for the rapid deepening.A low-level positive potential vorticity anomaly was created prior to the onset of rapid deepening.It was a result of frontal cloud condensation.The cyclone intensified rapidly when stratospheric air with high potential vorticity penetrated to the mid-troposphere.The rapid deepening took place at a location under the left-exit region of an amplifying jet streak behind the major trough and the right-entrance region of another anticyclonically-curved subtropical jet streak in a quasi-stationary ridge overJapan.Due to the blocking effect of the Tibetan Plateau,two shortwave disturbances were observed in the upper-level westerlies on the north and south sides of the Plateau.The southern disturbance initiated the incipient surface cyclone,while the amplifying northern disturbance was responsible for the rapid deepening.Thus,the evolution of the explosive cyclone in this case can be regarded as consecutive Petterssen's "type-B" cyclogenesis in two separate stages. 相似文献
5.
THE ROLE OF COLD AIR AND CHARACTERISTICS OF WATER VAPOR IN BOTH TCS NANMADOL (0428) AND IRMA (7427) MAKING LANDFALL
ON CHINA IN WINTERTIME 总被引:2,自引:1,他引:1
The NCEP/NCAR reanalysis data are used to investigate the role of cold air and moisture
characteristics during the evolution of two cases of tropical cyclones (Nanmadol and Irma) which made
landfall on China in wintertime. The results are shown as follows. (1) The East Asia trough steered the
cold air into the tropical ocean in early winter. The tropical cyclones moved in opposite directions with a
high moving out to sea and the enhancement of the pressure gradient at the periphery played a role in
maintaining and strengthening the intensity of the storms. The intrusion of weak cold air into the low
levels of the tropical cyclones strengthened them by improving the cyclonic disturbance when they were
still over the warm sea surface. When the cold air was strong enough and intruded into the eyes, the warm
cores were damaged and stuffed before dissipation. (2) The tropical cyclones were formed in a convergence
zone of moisture flux and their development could enhance the disturbance of water vapor convergence,
thus strengthening the moisture convergence zone. However, when they were outside the moisture zone,
the storms could not gain sufficient water vapor and became weak. There were no belts of strong moisture
transportation during the wintertime tropical cyclone processes. 相似文献
6.
热带气旋远距离暴雨过程的诊断分析 总被引:15,自引:3,他引:15
利用天气实况和NCEP再分析资料,对2004年8月26—28日山东大暴雨过程进行了客观分析。结果表明,0418号热带气旋在福建沿海登陆后,其北伸倒槽与西风带弱冷空气结合造成了本次大暴雨过程,具有明显的中低纬系统相互作用特征。伴随登陆热带气旋生成的低空东南急流为暴雨输送了丰富的热量和水汽,成为联系中低纬度系统的纽带。西风带弱冷空气侵入台风北伸倒槽后,在黄淮之间有明显的暖锋锋生特征,是触发倒槽区域中尺度对流发展和暴雨产生的重要动力机制。暴雨与高能舌区具有很好的对应关系,总能量分布对热带气旋远距离暴雨的落区具有很好的指示作用。 相似文献
7.
利用欧洲中期天气预报中心(ECMWF)提供的0.5°×0.5° ERA-Interim再分析资料,麦迪逊-威斯康星大学气象卫星研究所(CIMSS)提供的地球静止环境业务卫星(GOES-EAST)红外卫星云图和天气预报模式(WRF)的模拟结果,对2018年1月3—6日发生在北大西洋上的一个具有“T”型(T-bone)锋面结构的超强爆发性气旋进行分析。该爆发性气旋在较暖的湾流上空生成,沿海表面温度大值区向东北方向快速移动,生成后6 h内爆发性发展,24 h中心气压降低48.7 hPa。高空槽加深、涡度平流加强和低层较强的大气斜压性为气旋快速发展提供了有利的环流背景场。由于气旋发展迅速,低层相对涡度急剧增大,低压中心南部来自西北方向的干冷空气随气旋式环流快速向东推进,与东南暖湿气流汇合,锋生作用较强。较暖的洋面对西北冷空气的加热作用使得交汇的冷、暖空气温度梯度较小。减弱东移的冷锋与暖锋逐渐形成近似垂直的“T”型结构。用Zwack-Okossi方程诊断分析表明,非绝热加热、温度平流和正涡度平流是该爆发性气旋发展的主要影响因子。气旋初始爆发阶段,西北冷空气进入温暖的洋面,海洋对上层大气感热输送和潜热释放较强,非绝热加热对气旋快速发展有较大贡献。气旋进一步发展,“T”型锋面结构显著,温度平流净贡献较大,对气旋的发展和维持起重要作用。 相似文献
8.
利用联合台风预警中心(Joint Typhoon Warning Center,JTWC)最佳路径资料、逐小时降水资料和ERA5再分析资料,研究2017年5月26—31日孟加拉湾风暴与高原低涡共同影响下青藏高原一次强降水过程,结果表明:风暴和南支槽共同作用下建立的孟加拉湾至青藏高原的水汽输送带为高原低涡-切变线区域的降水提供水汽。南支槽后冷气流在青藏高原南部陡坡下沉形成冷垫,孟加拉湾偏南暖湿气流首先沿冷垫向北抬升,爬上青藏高原后向北在高原切变线附近再次抬升,增加降水区地表至对流层高层大气中的可降水量。风暴偏南风暖湿气流与青藏高原北部干冷空气交汇产生锋生,大气湿斜压性显著增长,湿等熵线密集陡立导致垂直涡度剧烈发展,有利于高原低涡加强。风暴北上过程中其高层反气旋式出流加强青藏高原槽前西南风高空急流,辐散增强有利于低层切变线发展和高原低涡东移,产生大范围强降水。高原低涡切变线与风暴水汽输送的正反馈作用,为降水区提供持续视热源和视水汽汇,有利于青藏高原降水系统的维持和发展。 相似文献
9.
在2006年6月1日发生在东海的爆发性气旋的天气学分析基础上,进行数值模拟,以进一步认识其爆发性发展的物理机制。结果表明:这次东海气旋的地面系统来自台湾岛附近的海上倒槽,在浙北沿海遇到高空比较深厚的低槽,大尺度高空槽通过槽前正涡度输送和槽前后冷暖平流对斜压不稳定的加强作用为气旋发展和维持提供有利的环境。同时,高空急流也通过其出口区的辐散和暖平流为气旋发展和维持提供有利的环境。中低层在舟山海域的强涡度平流的抬升作用产生降水,并通过水汽凝结引起潜热释放,进一步造成地面气旋系统的发展,此时气旋和降水形成正反馈机制。潜热释放被高空槽前斜压不稳定和急流出口区右侧辐散共同引起的上升运动激发后,对气旋的发展起着重要作用。 相似文献
10.
2018年1月中下旬至2月初我国发生了一次大范围的持续低温异常事件,给国民经济和人们生活带来了很大的不利影响。这次持续低温事件与众所周知的2008年1月发生在我国南方的持续雨雪冰冻事件(简称“0801”事件)有一个共同点,二者都是发生在La Ni?a和前秋北极海冰显著减少的背景之下。对比这两次事件发生的大气环流和热力背景,对认识冬季持续极寒事件的形成有重要意义。本文利用NCEP/NCAR大气环流再分析资料和NOAA卫星观测OLR资料,对这两次过程进行了比较。结果显示,与“0801”事件相比,2018年1月中下旬的低温事件表现出以下明显不同的特征:(1)过程持续短,冷空气路径偏东;(2)乌拉尔阻塞和东亚大槽并存,呈“西高东低”型,不同于“0801”高纬阻塞和低纬南支槽并存的“北高南低”型;(3)异常的环流型与自大西洋经乌拉尔山至东亚传播的波列有关,西伯利亚高压持续时间短;(4)热带对流活跃在海洋性大陆和西太平洋,不同于“0801”主要在印度洋。后者对该年南支槽和西太平洋副热带高压增强有显著贡献。最后,2018年过程期间水汽输送也不如“0801”强,导致降水弱。 相似文献
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12.
本文研究了东亚寒潮过程与下游爆发性气旋之间的关系。通过对一个强寒潮过程及随后在西北太平洋上爆发性气旋生成的个例分析发现,寒潮过程相伴随的大环流调整给下游气旋猛烈发展提供了极好的背景条件。当超长波槽与长波槽耦合加深时,槽前气旋迅速发展。大槽的加深使高空急流不断加速,大风区向低层扩展。出口区的次级环流也随着急流的加强而加强,它促使北侧低层气旋发展。对93次爆发性气旋作统计分析进一步证实了上述结论。绝大多数过程皆伴有上游的强冷高压活动。高压中心越强相应的爆发气旋也越强,甚至可以发生连续的爆发。绝大多数爆发性气旋发生在超长波槽前,强高空急流出口区的向极侧。 相似文献
13.
利用NCEP再分析资料、L波段雷达探空资料、常规气象资料及自动气象站资料和空气污染资料,对2005年12月25-28日重庆主城区一次重度霾天气过程进行了分析.结果表明:此次重度霾天气过程发生在一定天气背景下,500 hPa青藏高原南侧南支槽槽区宽广,槽前西南气流较为强盛,850 hPa重庆地区持续处于均压场控制,气压梯度小,水平风速弱,且影响重庆地区的冷空气活动少、强度弱,有利于重度霾的形成和维持;低层风速较小、中低层逆温层的持续存在、气温较低也是此次重度霾形成和维持的重要条件;在未达到饱和的情况下,适当增加湿度有利于霾的加强,霾天气过程中,气溶胶粒子的吸湿增长会使能见度更加恶化. 相似文献
14.
WANG Donghai DUAN Yihong LIU Ying LIANG Zhaoming LIU Chongjian ZHAO Yanfeng ZHANG Yuwei YIN Jinfang WANG Hong 《Acta Meteorologica Sinica》2013,27(5):601-625
A mixed rain-snow storm associated with a strong burst of cold air and development of an extratropical cyclone occurred over North China from 3 to 5 November 2012.This early snowfall event was characterized by a dramatic drop in temperature,strong winds,high precipitation intensity,broad spatial extent,and coexistence of multi-phase precipitating hydrometeors.This study investigates the multi-scale interactions between the large-scale circulation background and the synoptic-scale weather systems associated with the storm.The results are as follows.(1) The Arctic Oscillation (AO) had been in its negative phase long before the event,leading to southward advection of cold air into North China in advance of the storm.(2)The large-scale atmospheric circulation experienced a decreased number of long waves upstream of North China prior to the storm,resulting in reduced wave velocity and an almost stagnant low pressure system (extratropical cyclone) over North China.(3) An Ω-shaped blocking high over East Asia and the western Pacific obstructed the eastward movement of an upstream trough,allowing the corresponding surface cyclone to stabilize and persist over Beijing and its neighboring areas.This blocking high was a major factor in making this event a historically most severe precipitation event in autumn in Beijing for the past 60 years.(4) Baroclinic instability at lower levels gave rise to rapid development of the cyclone under the classical "second type" development mechanism for extratropical cyclones.(5) Moisture originated from the Yellow Sea entered the slowly-moving cyclone in a steady stream,creating fairly favorable water vapor supply for the heavy rainfall-snowfall,especially during the later stage of the cyclone development.(6) Moisture transport and frontal lifting triggered low-level instability and updrafts.Intensification of the front enhanced the vertical wind shear,causing conditional symmetric instability (CSI) to expand upward within the unstable lower troposphere,and to eventually gear into the CSI region of the upper troposphere,which facilitated the upward development of low-level updrafts. 相似文献
15.
由台风低压倒槽引发的山东暴雨过程研究 总被引:4,自引:1,他引:3
2004年8月26-28日发生在山东省的大到暴雨过程主要是由"艾莉"台风减弱的低压和西风带冷空气远距离相互作用造成的,台风倒槽的发展与低空东南气流的加强及台风低压外围热量和动量的向北输送密切相关.采用双向三重嵌套网格非静力模式MM5对这一过程进行了数值模拟,研究了台风倒槽的中尺度结构特征,并通过涡度收支探讨了台风倒槽及中尺度低涡发生发展的物理过程.结果表明,强降水是在台风倒槽顶部强风中心与弱风中心之间的强辐合作用下触发的,台风倒槽的增强和中尺度低涡的形成是低空急流及其动力作用的结果,降水的非绝热加热也起着重要作用.涡度方程的收支诊断表明,对流层低层的散度项、对流层中层的水平平流项和铅直输送项是正涡度的主要贡献者,在同一等压面上散度项和水平平流项的作用是相反的.对流层中层铅直输送项的贡献为正,扭转项为负贡献,涡度变化的总趋势是它们相互作用的净结果.等压面上相对涡度的变化趋势并不是均匀的,中尺度低涡的东南象限相对涡度局地变化较强,这是强降水发生在此的重要原因.低层正涡度的增加是由水平辐合引起的,而高层正涡度的增加是涡度由低层向高层垂直输送的结果.因此台风倒槽的发展和中尺度低涡的形成主要是由于低层的涡度制造,另一方面来自中低层涡度的垂直输送. 相似文献
16.
2010年5月6日重庆强对流过程的天气学分析 总被引:4,自引:1,他引:3
利用常规观测、NCEP/NCAR再分析、FY-2E卫星、多普勒雷达以及自动站观测资料,对2010年5月6日重庆强风雹、暴雨天气过程进行了天气学分析。详细讨论了各尺度天气系统的发展演变及相互作用关系,并在此基础上提出了此次强对流发生的天气背景概念模型。研究结果表明:这次强对流过程发生在中纬度气旋、反气旋和高空槽增强发展的背景下,地面气旋与反气旋之间的冷锋也在南移中逐渐增强,而中纬度系统与西南地区低压和副热带高压间构成的鞍形场在重庆北侧造成锋生,一方面使得冷锋西段增强,另一方面通过次级环流与中层急流正反馈相互作用,加剧重庆中低层辐合抬升运动,既降低了大气稳定度,又为对流的触发形成提供了有利条件。与此同时,重庆低层始终位于西南地区低压东北部,偏南气流不仅输送了充足的水汽,其伴随的暖平流还与太阳辐射共同造成了重庆低层的显著升温,形成了条件不稳定层结。5月5日夜间冷锋移至重庆地区,锋面附近的强辐合造成了对流的初始发展,这一过程很可能与冷锋进入四川盆地后的下坡地形有关。另外,此次天气过程中副热带高空急流造成的强垂直风切变和高空辐散也为对流的强烈发展提供了有利条件。 相似文献
17.
1999年6月长江中下游梅雨暴雨的环流特征分析 总被引:7,自引:12,他引:7
利用客观分析资料和加强观测期资料,对1999年6月发生在我国长江流域的持续性梅雨期降水过程的大尺度环流特征进行了分析,结果表明:(1)1999年梅雨期,我国长江中下游强降水带状分布非常明显,强降水主要发生在长江中下游地区,强降水带呈东西向分布,并且雨带的南北边界非常清楚。(2)在对流层低层,从孟加拉湾来的西风气流和西太平洋副热带高压前缘的东南气流在长江流域维持,为此次强暴雨过程产生和发展提供了有利的大尺度条件。高空急流和低空急流的存在和维持为此次梅雨锋暴雨过程的发生提供了有利的抬升机制,而对流层中低层的中性对流不稳定特征则为持续性暴雨过程的发生提供了有利的不稳定机制。(3)梅雨锋区对流层低层的水汽辐合非常明显,水汽输送主要来自孟加拉湾和西太平洋,同时南海季风槽在向梅雨锋区输送水汽的过程中起到了非常重要的作用,它是热带海洋地区向我国内陆输送水汽的通道。(4)平均纬向风速u对流层高层出现了与高空西风急流与高空东风急流相对应的两个强风速核;径向平均风速v在400 hPa以下层次盛行南风,而在400 hPa以上的高层盛行北风;受两侧下沉气流的制约,梅雨锋降水带南北两侧存在位势不稳定层结中的不稳定能量无法释放,因此没有出现明显的降水。 相似文献
18.
The winters of 1997/1998 and 1998/1999,corresponding to El Ni(?)o and La Ni(?)a episodes,respectively, were two typical rain-abundant and-scarce seasons for the southern China.In order to understand the cause of the anomalous precipitation during the two winters,a comparative analysis technique has been employed to investigate the differences in general circulation and moisture transportation between the two seasons. The results show that the abundant rainfall during the winter of 1997/1998 was associated with the ENSO warm episode event,eastward shifted weak westerly trough/ridge,weakened East Asian winter monsoon (EAWM),strengthened subtropical high,and presented two anti-cyclonic circulations over Hokkaido and the Philippine Sea,respectively,as well as one cyclonic circulation over the Yangtze River Basin in the anomalous wind fields of the lower troposphere.During the rain-scarce winter,however,the patterns of equatorial sea surface temperature anomalies and the circulation systems both in upper and lower levels were nearly the opposite of those during the rain-abundant winter.It has also been discovered that the water vapor over southern China during the winters came mainly from the southwesterly flow ahead of troughs in the southern branch of westerlies and the turning flow over the South China Sea-Indo-China Peninsula area;and the moisture transportation channels varied significantly with regard to height.The intensified flow in the southern branch of westerlies and the anti-cyclonic circulation anomaly over the Philippine Sea during the winter of 1997/1998 were favorable for moisture transportation to mainland China,however the two moisture transportation streams were dramatically weakened during the winter of 1998/1999 due to weak westerly flow and the dominance of a cold high system in the lower level over the southeast coast of China.Such a significant inter-annual change of moisture transportation is a key factor resulting in the obvious difference in precipitation between the two winters. 相似文献
19.
“16·7”华北极端强降水特征及天气学成因分析 总被引:11,自引:9,他引:2
2016年7月19-20日华北出现了当年入汛以来最强降水过程。此次降水过程为一次影响范围广、累积雨量大、持续时间长的极端强降水过程,其强度较"96·8"强,仅次于"63·8"。以暖云降水为主,短时强降水特征明显,局地小时雨强强、且具有明显的地形降水特征。此次强降水发生在南亚高压东伸加强、副热带高压西伸北抬、中高纬度西风带低涡系统发展的环流背景下,黄淮气旋、西南和东南低空急流的异常发展以及水汽的异常充沛表明此次强降水过程动力抬升和水汽条件非常有利。强降水过程表现出明显的阶段特征,主要分为两个阶段:19日凌晨至白天为高空槽前偏东风导致的地形强降水、19日夜间至20日为黄淮气旋系统北侧螺旋雨带造成的强降水。第一阶段的降水主要与高空槽前偏东风/东南风急流的发展有直接关系。这一阶段对流降水旺盛,中层弱干冷平流以及低层强暖平流是对流不稳定能量的维持机制,强降水形成的冷堆与局地地形作用产生的中尺度锋生过程为对流持续新生提供了有利条件。第二阶段的降水主要与低涡切断和黄淮气旋的强烈发展有关。该阶段降水对流相对较弱,黄淮气旋进入华北以后移动缓慢,从而造成降水持续时间较长。 相似文献
20.
In this paper, the Pennsylvania State University-NCAR Mesoscale Model (MM4) is used to investigate the explosive oceanic cyclone of 14-15 March 1988 over the warm Kuroshio Current. A series of numerical simulations on this cyclogenesis indicates that the favorable weather condi-tions and strong baroclinity in the low- and middle-level are essential to its explosive development. The explosive cyclogenesis occurred over a wide range of sea surface temperatures (SST’s), which was then characterized by strong baroclinity, the low-level jet (LLJ) was initially formed under the favorable atmospheric circulation and then this LLJ advected the moisture and heat northward for the explosive development of the cyclone, the LLJ played an important role in the process of cyclogenesis. Sensitivity experiments show that the latent heating was a key factor to explosive cyclogenesis, the latent heating deepened the short-wave trough, which resulted in the rapid intensification of the cyclone; while in the explosive intensification stage and continuous de-velopment stage, there was less contribution of local surface processes for the explosion of the cy?clone. 相似文献