共查询到20条相似文献,搜索用时 453 毫秒
1.
基于NCEP 6 h一次,0.5°(纬度)×0.5°(经度)水平分辨率的GFS(Global Forecasting System)再分析数据,利用数值模式WRF(Weather Research and Forecasting),对2014年11月上旬西北太平洋一次极端强度的爆发气旋事件进行了模拟。在成功复制爆发气旋主要特征的基础上,较详细的分析了本次爆发气旋快速发展的有利环境条件,并利用分片位涡反演的方法,对此次爆发气旋的快速发展过程进行了研究,主要结论如下:(1)本次爆发气旋的爆发性发展阶段维持了约27 h,其最大加深率约为3.98 Bergeron(气旋加深率单位),最低中心气压约为919.2 hPa。(2)爆发气旋的快速发展与对流层高层高空急流对热量的输送,对流层中层西风带短波槽槽前暖平流和正涡度平流的有利准地转强迫,以及对流层低层暖锋伴随的暖平流过程密切相关。(3)分片位涡反演的结果表明,对流层顶皱褶对应的平流层大值位涡下传和降水凝结潜热过程造成的正位涡异常是本次爆发气旋快速发展的主导因子,而对流层低层的斜压过程贡献相对较小。在气旋爆发期的前期和强盛期,降水凝结潜热释放是爆发气旋发展的最重要因子,而在爆发期后期,随着降水的减弱和爆发气旋的东北向移动,对流层顶皱褶作用所造成的正位涡异常成为维持气旋快速发展的最有利因子。 相似文献
2.
Summary In a recently published work it was shown that Alpine cyclone development depends on a short wave trough upstream of the Alps, the presence of an upper-level jet streak in this trough, and a low-level front interacting with the mountain barrier. Specifically, by modifying the strength of the upper baroclinic zone (potential vorticity) or by decreasing the strength of the low-level baroclinic zone impinging on the Alps in an initial field, the intensity of the resulting numerically predicted cyclogenesis could be modulated. The major finding of the work was that the ALPEX cyclones reacted differently to upper-level and lower-level modification, providing a basis for broadly classifying storms: that is, dependence on upper-level processes and on low-level processes.The present work extends this study by considering additional cyclones that occurred during the ALPEX Special Observing Period (SOP), and describes the influence of upper-level and lower-level processes on each. An index (I) discussed in the previous paper is examined in terms of its relative value from case to case, and in terms of its value in a time-dependent sense during the lifetime of the storm. The results show that the most powerful lee cyclones depended more on the strength of the upper-level jet or potential vorticity than on the strength of the low-level front of baroclinic zone. In most cases the time evolution ofI showed the influence of the upper-level jet to be important during the early phase of development. The front is increasingly important in midlife as intensification takes place, and the jet is increasingly important during late life. These conclusions were reached during the earlier study but are supported by the additional SOP cyclone cases.Cyclone steering flow and the impinging of the storm on the Alps had a great impact on defining its character: storms with NW-N trajectories were heavily dependent on low level frontal strength and WSW-WNW trajectories were dominated by effects of the upper level jet.With 16 Figures 相似文献
3.
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
4.
利用常规观测资料和NCEP/NCAR(1°×1°)逐6 h再分析资料,对承德市2017年5月5—6日大风天气的环流形势和物理量进行分析,结果表明气旋的快速发展(气旋加深率0.84 B)导致锋生加强,引发气压和变压梯度加大是导致大风的直接原因。500 hPa高压脊东移迫使冷空气向南堆积,高空槽不断发展成为冷涡,温度平流为地面气旋的发展提供热力条件,高低层涡度平流的差异,也是地面气旋快速发展的重要原因;当1.5 PVU位涡面伸展至对流层低层时,局地位涡异常在气旋的发展过程中不可忽视;高空急流出口区发生质量调整,出口区左侧的辐散强度达10×10~(-5) s~(-1),使低层大气减压,有利于气旋发展。 相似文献
5.
Barotropic Process Contributing to the Formation and Growth of Tropical Cyclone Nargis 总被引:1,自引:0,他引:1
This study reveals the barotropic dynamics associated with the formation and growth of tropical cyclone Nargis in 2008,during its formation stage.Strong equatorial westerlies occurred over the southern Bay of Bengal in association with the arrival of an intraseasonal westerly event during the period 22-24 April 2008. The westerlies,together with strong tropical-subtropical easterlies,constituted a large-scale horizontal shear flow,creating cyclonic vorticity and thereby promoting the incipient disturbance that eventually evolved into Nargis.This basic zonal flow in the lower troposphere was barotropically unstable,with the amplified disturbance gaining more kinetic energy from the easterly jet than from the westerly jet during 25-26 April. This finding suggests that more attention should be paid to the unstable easterly jet when monitoring and predicting the development of tropical cyclones.Energetics analyses reveal that barotropic energy conversion by the meridional gradient of the basic zonal flow was indeed an important energy source for the growth of Nargis. 相似文献
6.
一次台风变性并入东北冷涡过程的动力诊断分析 总被引:1,自引:0,他引:1
台风北移变性并入东北冷涡是造成东北地区夏季大范围暴雨的主要形式之一, 但其中的热动力结构变化特征及其物理机制尚不清晰。本文利用美国国家环境预报中心(NCEP)的再分析资料对一次台风变性并入东北冷涡过程进行动力诊断分析, 分析结果显示:冷涡冷空气的不断侵入以及台风移动形成的相对冷平流使得台风暖心结构消亡, 其低层低压辐合和高层高压辐散结构消失, 变性并入东北冷涡后气旋整层偏冷, 低层出现冷中心。台风变性并入东北冷涡过程中, 冷涡中心附近高空急流南侧的反气旋切变抑制气旋直接往高空发展, 而急流轴左侧的热动力分布特征有利于垂直涡度的发展, 变性后的气旋环流向冷涡的移近有利于急流轴维持倾斜, 从而促进气旋向高空冷涡倾斜发展。同时, 冷空气在气旋低层附近堆积导致等假相当位温线发生倾斜, 造成垂直涡度在气旋中层倾斜发展。台风变性并入东北冷涡后, 高空冷涡槽底的正垂直涡度平流促进气旋由中层直接向高层发展, 而高空冷涡槽底急流促进正垂直涡度平流的维持。气旋高空环流的发展反过来削弱了东北冷涡的高层环流, 导致高空冷涡中心出现北撤。 相似文献
7.
On 18–19 February 1979, an intense cyclone developed along the east coast of the United States and produced heavy snowfall accumulations from Virginia to southeast New York. A series of forecast experiments was conducted to assess the accuracy of the GLA model's prediction of this storm and the importance of oceanic heat and moisture fluxes and initial data to the cyclogenesis. The GLA model forecast from the GLA NOSAT analysis at 0000 GMT 18 February correctly predicted that intense coastal cyclogenesis and heavy precipitation would occur, even though important subsynoptic details of the development were underestimated or not forecast. A repetition of this forecast with surface heat and moisture fluxes eliminated failed to predict any cyclogenesis while a similar forecast with only the surface moisture flux excluded showed only very weak cyclonic development. An extended-range forecast from 0000 GMT 16 February as well as forecasts from the GLA FGGE analysis or the NMC analysis at 0000 GMT 18 February interpolated to the GLA grid predicted weaker coastal low development than the forecast from the NOSAT analysis.Detailed examination of these forecasts shows that diabatic heating resulting from oceanic fluxes increased low-level baroclinicity, decreased static stability and significantly contributed both to the generation of low-level cyclonic vorticity, and to the intensification and slow rate of movement of an upper-level ridge over the western Atlantic. As an upper-level short-wave trough approached this ridge, the diabatic heating associated with the release of latent heat intensified and the gradient of vorticity, vorticity advection and upper-level divergence in advance of the trough were increased, which provided strong forcing for the surface cyclogenesis.An examination of the NMC and GLA analyses indicated that a weaker representation of the upper-level trough in the interpolated NMC analysis was primarily responsible for the resulting forecast differences. Comparison of the GLA FGGE and NOSAT initial analyses showed that the FGGE analysis of cloud-track wind data probably underestimated the maximum wind speeds associated with an upper-level jet streak near the east coast. This diminished the effect of the oceanic fluxes in the forecast from the FGGE analysis and resulted in weaker cyclogenesis. 相似文献
8.
Summary The present observational study addresses the role of dynamic and diabatic processes leading to the generation of four deep
upper-level troughs/cut-offs, involved in two extreme precipitation episodes over West Africa during the cool season. The
elongated potential vorticity (PV) streamers associated with the observed troughs form as a result of an equatorward transport
of high-PV air downstream of a large ridge over the central North Atlantic. Strong deformation along the eastern side of the
ridge leads to a thinning of the PV streamers. In some situations the tips of the streamers break up and form distinct and
long-lived stationary cut-offs near West Africa, in particular if the presence of another PV ridge downstream allows a complete
isolation from the midlatitude westerlies. In other situations a prior anticyclonic wave-breaking event over Europe leads
to an advection of high-PV towards the Iberian Peninsula that merges with the streamer and impedes a complete cut-off.
The observations presented here suggest that the rapid amplification of the PV ridges over the North Atlantic and thus the
subsequent streamer formation are related to upstream latent heating through non-conservative diabatic reduction of upper-level
PV and through the strong divergent outflow near the tropopause that support large negative isentropic PV advection. The intense
latent heat release is promoted by cyclo- and frontogenesis, and the transport of warm, moist air by a low-level jet ahead
of the surface cold front (often called a warm conveyor belt; WCB). Diabatic PV tendencies are highest where the WCB rises
over the surface warm front to the northeast or east of the cyclone centre. In most cases the distinct heating occurs in connection
with a strong upper-level jet and a rapid deepening of the involved surface cyclone. More quantitative dynamical and statistical
studies of the suggested relation are needed to better understand the relative contributions of single factors to the large
and synoptic scale evolution that leads to PV streamers/cut-offs near West Africa. 相似文献
9.
高空急流对青藏高原切变线影响的数值试验与动力诊断 总被引:2,自引:0,他引:2
利用NCEP 1°×1° FNL分析资料和中尺度数值模式WRF对一次青藏高原(简称高原)切变线过程进行了数值试验,主要研究高空急流强度对高原切变线的影响,并结合ω方程分析了影响高原切变线上垂直上升运动的若干因子。研究得出高空急流的强度对低层风场有重要影响,急流增强会使高原切变线上的风切变增大,切变线变长,同时高空急流强度的增强也有利于高原切变线上水汽的辐合。高空急流可通过影响高层辐散、低层辐合的散度场垂直配置对高原切变线上的正涡度柱与辐合上升运动产生作用。ω方程的诊断分析表明,温度平流的拉普拉斯项对高原切变线上的垂直上升运动起主导作用,低层暖平流有利于切变线上产生上升运动。高空急流强度的变化对差动涡度平流项的影响要大于温度平流拉普拉斯项,高空急流强度的增强会放大差动涡度平流项和温度平流项的正贡献,从而更加有利于上升运动及高原切变线的维持。 相似文献
10.
The development mechanisms of the explosive cyclone that occurred during 3–4 April 2012 over East Sea (Sea of Japan) are examined through numerical simulation and sensitivity experiments using the Weather and Research Forecasting (WRF) model. The characteristics of this explosive cyclone are different from typical cyclonic features observed in this region, including its intensity, deepening rate, and formation time. Numerical simulation, reanalysis data, upper and surface weather charts, and satellite data indicate that the strong baroclinic instability and temperature advection associated with upper-level cut-off low and the interaction of potential vorticity (PV) anomalies between the lower- and upper-level are essential to explosive cyclogenesis.The sensitivity experiments of the explosive cyclone show that latent heat release (LHR) is an important factor in explosive cyclogenesis. The intensification, extent, and movement speed of the cyclone are amplified by LHR as well as the formation of an upper-level cut-off low. The role of LHR is primary important in the generation and evolution of the cyclone. Especially, the LHR contributes to roughly 50% of decrease in sea level pressure (SLP) and 50% of the central cyclone’s low-level PV generation in initial stage. During a 48-h simulation, the contributions of the LHR, surface heat flux, and their interaction on the decrease of SLP of the cyclone are found to be 40.6, −8.2, and 10.5%, respectively. These results reveal that the explosive cyclone has larger deepening rates than OJ cyclones, and develops with a large amount of LHR near the cyclone center. 相似文献
11.
该文选择了发展变化机制有一定差异的两例春季爆发性东北低压(分别是1983年4月25~26日气旋(简称A例)和1983年4月28~29日气旋(简称B例)),进行了对比诊断分析。结果表明:(1)非绝热加热和局地斜压不稳定对A例气旋发展来说是十分关键的因子,而空正IPV平流的显著增强及其与低层IPV分布中两个局地最大值的垂直耦合是B例气旋增强的一个重要原因;(2)两个风暴最大不同点在于非绝热加热效应在影响气旋增强的程度上有所不同。另外,B例事件中对流层中部产生的较强高空锋生可以在低压范围内导致深厚的上升运动并使高空锋向下游的正涡度平流得以加强,这对系统的发展是十分有利的。 相似文献
12.
2003年夏季梅雨期一次强气旋发展的位涡诊断分析 总被引:10,自引:2,他引:8
通过位涡诊断和回推轨迹分析, 对2003年夏季梅雨期间一次强江淮气旋的发展过程进行了研究。结果表明: 气旋发展初期, 非绝热加热在气旋的低层发展中起了主要作用, 随后由于高层水平平流的增强, 通过垂直平流使高低层大值位涡耦合在一起, 从而使气旋迅速发展。从中、 高、 低层对位涡柱形成所起的作用来看, 低层主要是非绝热加热, 中层是垂直平流, 而高层主要是水平平流; 从构成气旋的气流来说, 在气旋迅速发展阶段, 低层主要以西南暖湿气流为主, 高层 (500 hPa以上) 主要以沿急流轴下降的高层干冷气流和对流层底层流向气旋东北部并迅速上升的暖湿气流为主。高低层冷暖空气的相互作用主要发生在600 hPa及以上层次, 因凝结加热引起的垂直运动通过垂直平流可能在冷暖气流相互作用和上下大位涡的垂直耦合中发挥了重要作用。 相似文献
13.
Using the data of ECMWF (European Center for Medium-range Weather Forecasts) to undertake composite diagnoses of 16 explosive cyclones occurring at the Atlantic and the Pacific Oceans,it is found that there are a lot of obvious discrepancies on the basic fields between these strong and weak explosive cyclones.The major reasons why the explosive cyclones over the Atlantic are stronger than those over the Pacific Ocean are that the non-zonal upper jet and the low-level warm moist flow over the Atlantic are stronger.The non-zonal upper jet offers stronger divergence,baroclinicity and baroclinic instability fields for explosive cyclones.Anticyclonic curvature at the high level of strong explosive cyclones is easy to make the inertia-gravitational wave developing at the moment of northward transfer of energy and stimulate the cyclones deepening quickly.Warm advection and diabatic heating can cause the upper isobaric surface lifting,as a result,the anticyclone curvature of cyclones enlarges,and wave energy develops easily as well.The most powerful period of the development of explosive cyclones is just the time when the positive vorticity advection center is located over the low vortex.At the upper level,when the distribution of potential vorticity contours changes suddenly from rareness to denseness,and the large values of the potential vorticity both in the west and north sides of cyclones extend downwards together,then cyclones are easy to explosively develop.The formation of strong explosive cyclones is closely related with the non-zonality of upper jet and the anticyclonic curvature. 相似文献
14.
西风带高空槽对登陆我国变性热带气旋的影响及其机理研究 总被引:1,自引:1,他引:0
应用日本气象厅1979~2008年的热带气旋资料以及日本25年 (JRA-25) 再分析资料, 本文首先对登陆我国变性加强和变性减弱的两类热带气旋进行了合成对比分析, 发现热带气旋变性后的强度变化与相应的西风带高空槽的强弱有很好的对应关系。然后, 我们选取了2004年登陆我国的热带气旋Haima为研究对象, 通过中尺度模式模拟再现了其登陆后变性演变过程, 采用片段位涡反演方法改变了模式初始高空槽的强度, 研究了高空槽强度的变化对Haima变性过程的影响。研究表明: (1) 高空槽加强 (减弱) 后, Haima移速明显加快 (减慢), 此外深 (浅) 槽对应的Haima变性加强过程中心气压降幅较大 (小); (2) 不同强度的高空槽与Haima相互作用的过程中, 深槽对应的高空急流范围较大, 强度更强, 相应的高空强辐散有利于Haima明显的再发展; (3) 另外深槽对应着较强的高层正位涡带, 正位涡向下伸展诱发低层Haima正位涡明显增长, 从而导致低层锋区的强烈发展和低层气旋的明显加强。 相似文献
15.
A series of ten numerical tests are carried out using smoothing techniques in the PSU/NACRmesoscale model MM5 initial field in order to study the development reasons of a pre-summeruncommon explosive event which took place in East Asia from 1—2 June.1993.The integrationfields are compared with that of original results obtained by non-smoothed initial field.The resultsshow that:(1)After the northern trough is smoothed,its corresponding cold air can not movedownward and southward.Only a weak cyclone system forms south of 25°N after 24 h integration.(2)After the southern strong moisture transportation channel is smoothed,the northem troughsystem can only form a weak trough along the east coast of China after 24 h integration.(3)Thesetwo separate low trough systems in the southern and northern jet systems,with strong warmmoisture transportation channel and cold air respectively,are both necessary for explosive cyclonedevelopment.In such an unfavorable season and location for explosive cyclone to take place,onlyafter these two low troughs merged into a strong low vortex can the surface cyclone he developedexplosively.Both the northern trough system and the southern moisture transportation channel areall indispensable for the explosive cyclone development.This explosive cyclone event is the resultof the interaction of northern and southern systems. 相似文献
16.
In this paper, an explosive cyclone (EC) that occurred over Northeast China in the spring of 2016 is studied by using 6.7 μm FY satellite water vapor (WV) imagery and NCEP (1°×1°) reanalysis data. Moreover, the evolutions of the upper-level jet stream (ULJ), the vertical motions, and the potential vorticity (PV) are analyzed in detail. Results show that different shapes of the WV image dark zones could reflect different stages of the EC. At the pre-explosion stage, a small dark zone and an S-shaped baroclinic leaf cloud can be found on the WV imagery. Then the dark zone expands and the leaf cloud grows into a comma-shaped cloud at the explosively developing stage. At the post-explosion stage, the dark zone brightens, and the spiral cloud forms. The whole process can be well described by the WV imagery. The dynamic dry band associated with the sinking motion and the ULJ can develop into the dry intrusion later, which is an important signal in forecasting the EC and should be paid attention to when analyzing the WV imagery. Furthermore, the mechanism is also analyzed in detail in this article. EC usually occurs in the left-exit region of the 200-hPa jet and the region ahead of the 500-hPa trough where there is significant positive vorticity advection (PVA). When the EC moves onto the sea surface, the decreased friction would favour the development of the EC. The upper-level PVA, the strong convergence at low level, and the divergence at high levels can maintain the strong updraft. Meanwhile, the high PV zone from the upper levels extends downward, approaching the cyclone. Together, they keep the cyclone deepening continuously. 相似文献
17.
选取西北太平洋上两个生命史中发生变性的热带气旋Yagi和Francisco,前者变性后有一个24小时的再增强过程,而后者则继续减弱直至消亡。利用日本气象厅提供的热带气旋资料和美国环境预报中心(NCEP)提供的FNL全球分析资料,对比分析两个TC在变性阶段的形势场,发现两者在高低层的环境场均具有明显的差异:Yagi在变性阶段其高空槽较强且在低层有一个与中纬度原先存在的温带气旋合并的过程;而Francisco在变性阶段其高空槽较弱,且变性后自行消亡。另外探讨了导致Yagi变性增强的原因,结果表明:(1)Yagi变性阶段与高空槽前的急流相互作用时,高空急流入口区左侧和出口区右侧的次级环流将产生高空辐散低空辐合的趋势,有利于低层TC低压的发展。同时,当Yagi在穿越急流的过程当中,垂直风切变的增加将导致斜压不稳定增强,低层锋区强烈发展,锋区内的斜压能量可能向TC动能转化,从而使得Yagi发展增强;(2)高空槽所对应的高层湿位涡下传可使得低层正涡度增长,从而在低层诱生出气旋性环流,有利于Yagi变性后重新发展;(3)Yagi与中纬度原先存在的温带气旋发生合并,温带气旋所带来的较高纬度冷空气的入侵增强了低层的水平温度梯度,使得低层锋区强烈发展,从Yagi以一个锋面气旋的形式而再度发展,促使其变性后进一步增强。而这些特征都是Francisco所不具备的。 相似文献
18.
WANG Jianjie 《Acta Meteorologica Sinica》2000,14(2):173-192
In this study,the predictability and physical processes leading to the rapid frontal cyclogenesis,that took place in the east coast of the U.S.during 3-4 October 1987,are examined using a nestedgrid.mesoscale model with a fine-mesh grid size of 25km.It is shown that the model reproduces reasonably well the cyclogenesis in a coastal baroclinic zone.its subsequent deepening and movement as well as the pertinent precipitation.It is found that the frontal cyclogenesis occurs in a favorable large-scale environment with pronounced thermal advection in the lower troposphere and marked potential vorticity(PV) concentration aloft associated with the tropopause depression.The transport of warm and moist air from the marine boundary layer by the low-level in-shore flow provides the necessary energy source for the observed heavy precipitation and a variety of weather phenomena reported in the cold sector.Several 24-h sensitivity simulations are performed to examine the relative importance of diabatic heating,adiabatic dynamics and various initial conditions in the frontal cyclogenesis.It is found that latent heat release,even though quite intense,accounts for only 25% of the cyclone's total deepening in this case:the weak impact seems due to the occurrence of latent heating in the cold sector and the upward lifting of the dynamical tropopause by diabatic updrafts.Vorticity budgets show that the lowlevel thermal advection dominates the incipient stage,whereas the vorticity advection determines the rapid deepening rate at the mature stage.The results reveal that the predictability of the present storm is closely related to the vertical coupling between the surface cyclone and the upper-level PV core,which is in turn determined by initial offshore perturbations in the lower troposphere. 相似文献
19.
2007年3月3—5日和2016年5月2—3日有两个气旋(简称C304和C502)在江淮流域生成后,以相似路径影响东北地区,但发展强度不同。利用常规观测资料和NCEP FNL分析资料,通过对涡度平流、温度平流、湿位势涡度及锋生函数等物理量进行诊断并结合高、低空环流形势对两个气旋发展动力机制进行对比分析,结果表明:C304低空温度平流在气旋发展初期起主要作用,高空正涡度平流为地面气旋发展提供高空辐散场,地面气旋中心上空垂直上升运动增强,对流层低层斜压性明显,气旋性涡度增加主要在对流层下层,低空斜压强迫是主要发展机制;C502低空温度平流弱,斜压性不明显,高空正涡度平流促使高空闭合环流发展,对流层上层有高湿位涡舌发展下垂并与对流层下层正湿位涡柱耦合贯通,垂直上升运动分布在地面气旋中心两侧,高空位涡下传是主要发展机制。两个气旋发生发展在对流层上层两支急流共存、急流非纬向性反气旋性弯曲环流形势下,对流层低层为气旋式环流背景。 相似文献
20.
利用常规观测资料、自动站资料和多普勒雷达资料等,对2009年7月14日大连暴雨局部大暴雨过程进行详细分析。结果表明:这是一次暖锋大暴雨过程,高空河套槽北抬和北支槽尾段相叠加,中低层在渤海北部到大连地区形成涡旋环流,700 hPa气旋式较大曲率处在地面暖锋上空,大连地区位于地面气旋顶部即暖锋顶部,造成强降水的产生。强湿区,配合暖锋前低层辐合中心、高层辐散中心,为暖锋大暴雨天气提供水汽和动力条件。从雷达回波分析可以看出,暖锋前部45dBz的β中尺度反射率及速度场上“单牛眼”特征,是造成此次暴雨过程及短时暴雨的直接原因。VWP资料分析表明,低层东南急流与高层西南急流形成切变层的高度以及两支急流的强度变化,与暖锋对应并决定降水的强弱。 相似文献