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1.
This paper reviews the main theoretical progress of mesoscale weather dynamics since 2003, including: (1) The dynamic mechanisms of balanced and unbalanced flow are applied to study the genesis and development problems of mesoscale circulation. The symmetric instability and transverse-wave instability are analyzed in line and vortex atmosphere convection, and further research has been done on nonlinear convective symmetric instability. The interaction between forced convection and unstable convection and the wave characteristics of mesoscale motion are also discussed. (2) Intermediate atmosphere dynamic boundary layer models are developed. The complicated nonlinear interaction is analyzed theoretically between the atmospheric boundary layer and the free atmosphere. The structure of the topography boundary layer, atmospheric frontogenesis, the structure and circulation of the low-level front and other boundary layer dynamic problems are discussed. (3) The formation and development of meso-β-scale rainstorms under the background of the East-Asia atmosphere circulation are diagnosed with the variation of MPV (moist potential vorticity) anomalies. And some physical vectors are modified and applied in the moist atmosphere. 相似文献
2.
暴雨中尺度系统数值模拟与动力诊断研究 总被引:5,自引:2,他引:3
本文总结了近年来我们在暴雨中尺度系统数值模拟与动力诊断研究领域的主要成果。从广义位涡理论、梅雨锋及变形锋生、暴雨中尺度系统的不稳定性、有限区域风场分解技术对暴雨中尺度系统的识别、中尺度波流相互作用理论以及数值模拟研究等方面进行了分类概括。对暴雨中尺度系统数值模拟与动力诊断的研究回顾表明,雷达资料同化进入模式有效地改进了对中尺度系统发生、发展的模拟结果;一些新的物理量,如非均匀饱和位涡、对流涡度矢量、变形场锋生以及有限区域风场分解方法等在暴雨中尺度系统及热带对流发展诊断分析中得到了广泛应用。同时,波流相互作用理论也被应用到了中尺度系统发展的动力分析研究中。 相似文献
3.
Mesoscale research conducted by Chinese meteorologists during the past four years is reviewed.Advances in theoretical studies include (a) mesoscale quasi-balanced and semi-balanced dynamics, derived through scale analysis and the perturbation method which are suitable for describing mesoscale vortices;(b) subcritical instability and vortex-sheet instability; (c) frontal adjustment mechanism and the effect of topography on frontgenesis; and (d) slantwise vorticity development theories, the slantwise vortex equation,and moist potential vorticity (MPV) anomalies with precipitation-related heat and mass sinks and MPV impermeability theorem. From the MPV conservation viewpoint, the transformation mechanism between different scale weather systems is analyzed. Based on the data analysis, a new dew-point front near the periphery of the West Pacific subtropical high is identified. In the light of MPV theory and Q-vector theory, some events associated with torrential rain systems and severe storms are analyzed and diagnosed.Progress in mesoscale numerical simulation has been made in the development of meso-α, meso-β vortices,meso-γ-scale downbursts and precipitation produced by deep convective systems with MM5 and other mesoscale models. 相似文献
4.
一次冬季暴雨过程中的锋生和条件对称不稳定分析 总被引:6,自引:3,他引:3
基于观测资料和NCEP再分析资料,并结合中尺度数值模拟,对2012年1月14—15日我国江南和华南冬季暴雨过程中的锋生与条件对称不稳定(conditional symmetric instablility,CSI)进行诊断分析。结果表明,南支锋区上短波槽东移配合低层冷空气活动,在江南南部到华南地区形成了明显的锋生过程,构成了有利于暴雨过程的天气尺度环流背景;来自孟加拉湾异常充沛的水汽输送形成了冷季暴雨所必须的水汽条件,异常强盛的高空急流人口区右侧的强辐散区也有利于暴雨的形成。在降水过程中锋面附近有多条中尺度雨带活动,锋生函数分析表明,14日夜间广西境内锋生明显增强,在潜热释放的影响下CSI开始发展,相应的锋生次级环流也有所发展,锋前暖区中的上升运动随之增强,导致广西北部形成较强的中尺度降雨带。分析表明,锋生次级环流和CSI实质是锋面次级环流方程(Sawyer-Elissen方程)在不同稳定性条件下的解,锋生强迫环流的性质可由湿位涡作为等价判据进行分析。 相似文献
5.
Vertical vorticity development owing to down-sliding at slantwise isentropic surface 总被引:2,自引:0,他引:2
Based upon the conservation of Ertel potential vorticity and moist potential vorticity, a ‘parcel dynamic’ approach is used to investigate the development of vertical vorticity of a parcel which is sliding down a slantwise isentropic surface. An accurate form of the tendency equation of vertical vorticity is deduced to interpret such slantwise vorticity development (SVD). In addition to those dynamic terms in the traditional vertical vorticity equation, the newly developed accurate form includes several thermal terms associated with the changes in stability, vertical wind shear and baroclinity. It is proved that the combinative impacts of these thermal terms on the development of vertical vorticity can be expressed by a succinct theory of SVD. According to this theory, when the horizontal component of potential vorticity and stability possess opposite signs, and the slantwise isentropic surfaces are very steep, the vorticity development of the down-sliding flow at such isentropes can be dramatic. It is also shown that in a convectively unstable and saturated atmosphere, such vorticity development must be accompanied by the development of a low-level jet. Study of a torrential rain process shows that moist potential vorticity analysis is a powerful tool in the study of torrential rain occurrence. Results from the present study are in agreement with the contentions of earlier workers that moist symmetric instability is the cause of some heavy rainbands. 相似文献
6.
从变形场驱动锋生及通过锋生引起倾斜涡度发展的角度对变形场在北京“7.21”暴雨发生、发展过程中的可能作用机制进行了初步探讨。诊断结果发现:北京地区降水产生时,变形向量与等位温线走向一致或有较小夹角,北京地区有较强的变形场局地锋生过程。锋生函数分析发现,变形项对引发暴雨的低层锋生有重要贡献。锋生能够引发大气动力、热力结构的调整,伴随大气锋生过程的高空急流加强和转竖使得北京地区处于高空急流入口区右侧的辐散区中,其带动低层空气辐合,有助于暴雨的加强维持。分析还发现,“7.21”暴雨过程中,垂直涡度存在爆发性发展,尤其是锋面降水阶段,而大气斜压度的增长趋势与垂直涡度增长趋势十分一致。分析全型涡度方程中与变形场有关的斜压度个别变化项发现,与变形场相关的垂直涡度驱动项异常正值区与垂直涡度爆发性增长区相对应,表明变形场在北京“7.21”暴雨过程中对垂直涡度发展有重要贡献。基于变形场沿其压缩轴方向气流汇合的特点,进一步分析了加入水汽作用的水汽通量变形场与暴雨发生、发展的关系。分析结果发现,低层水汽通量变形场的正值区与暴雨具有很强的相关,且水汽通量变形场包含两部分,一部分为比湿平流,其对未来暴雨区位置有很好的指示意义;一部分为变形场项,其对水汽通量变形场分布起主要贡献。 相似文献
7.
Up-sliding Slantwise Vorticity Development and the complete vorticity equation with mass forcing 总被引:16,自引:1,他引:15
The moist potential vorticity (MPV) equation is derived from complete atmospheric equations including the effect of mass forcing, with which the theory of Up-sliding Slantwise Vorticity Development (USVD) is proposed based on the theory of Slantwise Vorticity Development (SVD). When an air parcel slides up along a slantwise isentropic surface, its vertical component of relative vorticity will develop, and the steeper the isentropic surface is, the more violent the development will be. From the definition of MPV and the MPV equation produced here in, a complete vorticity equation is then put forward with mass forcing, which explicitly includes the effects of both internal forcings, such as variations of stability, baroclinicity, and vertical shear of horizontal wind, and external forcings, such as diabatic heating, friction, and mass forcing.When isentropic surfaces are flat, the complete vorticity equation matches its traditional counterpart. The physical interpretations of some of the items which are included in the complete vorticity equation but not in the traditional one are studied with a simplified model of the ChangjiangoHuaihe Meiyu front. A 60-h simulation is then performed to reproduce a torrential rain event in the ChangjiangoHuaihe region and the output of the model is studied qualitatively based on the theory of USVD. The result shows that the conditions of the theory of USVD are easily satisfied immediately in front of mesoscale rainstorms in the downwind direction, that is, the theory of USVD is important to the development and movement of these kinds of systems. 相似文献
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近年来我国暴雨中尺度动力分析研究进展 总被引:9,自引:3,他引:9
总结了近十年以来中国气象科研人员在暴雨中尺度动力分析研究领域的主要研究成果,从大尺度环流背景与中小尺度系统的相互作用、高低空急流、低涡、位涡与对流涡度矢量、螺旋度、不稳定等方面对它们进行了分类概括。对暴雨中尺度动力分析研究的回顾表明,以往常用的数值模拟、能量转换收支分析、涡度、散度、涡度收支、涡度平流、温度平流、各种不稳定指数等的诊断仍然是暴雨中尺度动力分析的主要手段,但是,近年来,除了位涡、螺旋度等动力变量在暴雨中尺度动力分析中的广泛应用以外,一些新的物理量,如非均匀饱和广义湿位涡、对流涡度矢量以及有限区域风场分解方法在暴雨中尺度动力分析中也得到了更多的应用。 相似文献
9.
深厚湿对流运动发展机制包含湿大气的对称不稳定(MSI和CSI)及锋面环流.它们需要的基本条件是不稳定、水汽和抬升,这些机理在动力学中是有联系和区别的,即虽然都是与基流平衡状态被破坏后引起的中尺度环流有关,但是扰动流非平衡运动是不同的。本文综合概述了有关平衡动力学的研究进展,提出了中尺度对流系统演变中的一些非平衡动力学主要问题,并评述了一些研究的方法及主要结论和尚需进一步探索的方面.以加深对不同机制下深对流运动的认识。 相似文献
10.
ISENTROPIC POTENTIAL VORTICITY ANALYSIS ON THE MESOSCALE CYCLONE DEVELOPMENT IN A TORRENTIAL RAIN PROCESS* 
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下载免费PDF全文 The mesoscale model MM4 is used to simulate the torrential rain associated with Meiyu front occurring on 5-6 July.1991 in the Changjiang-Huaihe Basin.Based on the outputs of the model,the cause of the mesoscale cyclogenesis on the lower troposphere is investigated in terms of the potential vorticity principle.The results show that because of the favorable pattern of moist isentropic surface,the absolute vorticity increases when cold air with high moist potential vorticity value rapidly slides down southwards along the moist isentropic surface,and then causes the cyclonic vortex development. 相似文献
11.
利用常规观测资料、NECP/NCAR提供的1°×1°FNL全球再分析资料,对2012年鲁西北一次持续性暴雨进行了湿Q矢量方法诊断分析。结果表明:此次持续暴雨出现在有利的环流背景下,降水区域集中并有明显的中尺度特征,湿Q矢量方法是分析强降水落区很好的工具;925~850 hPa湿Q矢量散度与强降水落区有较好的对应关系,但暴雨并不总是出现在湿Q矢量散度负值区中心,有时出现在湿Q矢量散度梯度大的负值区一侧;700 hPa湿Q矢量涡度正值中心与散度负值重叠的区域是中尺度低值系统发展有利的区域,与未来6~12 h暴雨落区有很好的对应;湿Q矢量锋生函数差值预报强降水落区明显优于锋生函数。 相似文献
12.
华南局地锋生及对流系统发展的模拟分析研究 总被引:5,自引:1,他引:4
2009年3月28日一条东西向的锋面出现在华南25°N附近。伴随着锋面的活动,对流降水回波午后开始在广西的梧州附近发展,并在随后几小时向东移动,组织发展成为中尺度对流系统(MCS),为广东中西部及珠三角地区带来了雷暴、暴雨、冰雹等灾害天气。应用地面自动站、雷达回波、卫星云图以及NCEP-FNL再分析资料和WRF模式的模拟结果,对锋面暴雨形成的天气特征进行了诊断分析,考察了中尺度对流系统的发展演变过程及其与局地锋生的相互关系。结果表明,锋面对流系统形成发展于一个东西向水平尺度约200km的地面中尺度辐合线附近,对流起始发展于具有较大对流有效位能(CAPE)和较小对流抑制位能(CIN)的区域。伴随着对流的发展,锋面强度增强。锋生函数的计算发现,非绝热项和倾斜项分别在由对流引起的次级环流的上升运动支和下沉运动支起锋生作用,是引发中尺度锋生的主要影响因子。而相对来说,水平辐合项和形变项的作用却比较小。这与大尺度的锋生过程不同,中尺度锋生更主要的是由热力直接触发的非地转环流所驱动。涡度场的演变分析还发现,沿着850hPa锋区大的正涡度区与500hPa的强上升运动区对应良好,对流系统发展与中尺度锋生之间存在着类似于第二条件不稳定机制的相互作用,对流增强了锋生过程,锋面则对中尺度对流系统的发展起组织作用。中尺度锋生对对流组织发展的作用作为此类灾害天气形成的原因值得关注。 相似文献
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一次华南持续性暴雨的动力诊断分析和数值模拟 总被引:2,自引:2,他引:0
利用倾斜涡度发展(slantwise vorticity development,SVD)理论,对2008年6月中旬华南地区持续性暴雨进行了动力学机制的诊断分析,讨论了低空急流(10wleveljet,Lu)在低涡发展过程中起的作用,同时利用MM5数值模式对暴雨过程进行了验证并对模拟结果进行了进一步分析。结果表明,高原低涡的发展是前期广西地区降水的主要动力因素,由于湿等熵面相对地形倾斜,且气块沿等熵面有相对运动,同时满足热力学参数CM〈0的条件,使得SVD发生作用,导致低涡移出高原后得到进一步发展;而LLJ的增强改变了大气斜压性,是后期低涡继续东移发展,并造成广东地区持续性暴雨的重要原因。数值模拟控制试验结果很好地反映了这次低涡降水的发展过程。敏感性试验结果初步表明,LLJ改变了低层大气稳定度和风的垂直切变,即大气斜压性增强,从而促进了中尺度低涡的进一步发展。 相似文献
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利用NCEP 1°×1°的6 h再分析资料和常规气象观测资料,对2012年7月21日发生在北京地区的一次大暴雨天气过程进行非地转湿Q矢量(Q*)和湿位涡等物理量诊断分析,研究暴雨期间Q*散度、锋生函数和湿位涡的时空分布特征,以及它们与强降水之间的关系。结果表明,Q*在850 hPa高度层上对暴雨表现出良好的诊断特性,冷、暖气流的汇聚加强了锋生作用,强锋生中心出现几小时后即出现暴雨。暴雨区位于Q*辐合区内,Q*散度对6 h后暴雨的落区有很好的指示意义。暴雨落区基本位于MPV1正、负值交界处的等值线密集带上以及MPV2负值区内。暴雨区上空,从近地面到对流层低层的对流性不稳定与条件性对称不稳定同时存在,两者共同作用,这很可能是此次暴雨的中尺度对流系统发生发展的重要条件之一。 相似文献
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广义湿位涡理论及其应用研究 总被引:6,自引:0,他引:6
押重点介绍了诊断暴雨落区与强度的广义湿位涡理论研究方面的两个内容,一是由于暴雨系统中强降水引起的质量亏空导致的暴雨系统中质量强迫下的湿位涡异常理论,二是非均匀饱和大气中的广义湿位涡理论;对暴雨系统中质量强迫的物理意义和非均匀饱和大气中的广义位温引入的思路与意义作了详细说明,并对位涡理论作了细致推导。在此基础上,针对暴雨个例,利用质量强迫的湿位涡异常和非均匀饱和广义湿位涡异常诊断了暴雨落区,从理论和诊断上论证了利用这两种湿位涡异常判断暴雨落区的可行性。 相似文献
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通过NCEP再分析资料计算各种物理量和应用卫星云图、雷达资料,并用WRF中尺模式做数值模拟,从动力过程、水汽输送过程、中小尺度系统等3个方面对TC和梅雨锋共同作用在浙北产生的一次暴雨过程进行分析。结论如下:(1)动力过程特点:300 hPa急流出口区辐散,中层3支气流汇合形成变形场锋生,产生强烈上升运动。低层TC外围的东南气流输入暖平流和湿位涡,使海上台风倒槽向北传播发展,最终形成气旋。TC高层流出气流对梅雨锋南侧垂直环流的维持有利;(2)水汽主要由两个TC外围的环流输送;(3)卫星云图和雷达回波显示有不同的降水云团合并且有加强的过程。用WRF中尺模式做数值模拟显示:700 hPa中小尺度的切变线或辐合区与强降水回波相对应。过程主要特点是中低层两个TC外围的气流与西风带气流在华东地区汇合,形成变形场锋生,产生强烈的辐合上升。在不同的气流汇合后产生了强急流输送水汽,加强垂直环流和中小尺度的辐合,是强降水产生的主要原因。西南季风经过台风绕流后在合适的环境场下仍有可能到达华东地区,这时往往与中纬度西风带汇合,在这种情况下会加强梅雨降水。 相似文献
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Diagnostic Analyses of the Modified Convective Vorticity Vector in Non-uniformly Saturated Moist Flow 总被引:2,自引:0,他引:2 下载免费PDF全文
下载免费PDF全文 Because the real atmosphere is non-uniformly saturated, the generalized potential temperature is introduced. The convective vorticity vector, which can depict the occurrence and development of mesoscale deep convective systems, is modified and re-derived in a nonuniformly saturated moist atmosphere (C^*). Then, a case study is performed for a frontal rainfall event which occurred near the middle and lower reaches of the Yangtze River in China. The diagnostic results of C^* show that, in the lower troposphere, the vertical component of C^* ( Cz^* ) can diagnose developments and movements of precipitation and convection better than those of Cm (Cmz, in saturated moist flow) and C (Cz, in dry flow). Cz^* is a good predictor for precipitation analyses as well. 相似文献
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Summary The problem of along-stream ageostrophic frontogenesis is studied by employing a numerical model at meso-alpha and meso-beta scales in simulations of the downstream circulations over the Front Range of the Rocky Mountains. Three-dimensional real data simulations at these two scales of motion are used to diagnose the transition from semigeostrophic cross-stream frontogenesis accompanying a propagating baroclinic upper-level jet streak to midtropospheric along-stream ageostrophic frontogenesis. This along-stream ageostrophic frontogenesis results from the perturbation of the jet streak by the Rocky Mountain range. The case study represents an example of internal wave dynamics which are forced by the drag of the Rocky Mountains on a strong jet streak in the presence of a low-level inversion.The simulation results indicate that, unlike semi-geostrophic frontogenesis, a front (which is alligned perpendicular to the axis of the jet stream) may form when significant adiabatic heating occurs within a stratified shear flow over horizontal length scales shorter than the Rossby radius of deformation. The mechanism responsible for the frontogenesis is the growth of the divergent along-stream wind velocity component which becomes coupled to the front's along-stream pressure gradient force. This nonlinear interaction produces hydrostatic mesoscale frontogenesis as follows: 1) vertical wind shear in the along-stream plane strengthens resulting in the increasingly nonuniform vertical variation of horizontal temperature advection as the ageostrophic wind component grows in magnitude downstream of the meso-scale terrain-induced adiabatic heating, 2) increasing along-stream differential vertical motions (i.e., along-stream thermally indirect circulation with warm air sinking to the west and cold air rising to the east) tilt the vertical gradient of isentropes into the horizontal as the vertical temperature gradient increases due to the previous process in proximity to horizontal gradients in the along-stream component of the ageostrophic wind, 3) as tilting motions act to increase the along-stream horizontal temperature gradient, the along-stream confluence acts to nonuniformly increase the along-stream frontal temperature gradient which increases the along-stream pressure gradient force resulting in further accelerations, ageostrophy, and frontal steepening as part of a scale contraction process.The evolution of the aforementioned processes results in the three-dimensional hydrostatic frontogenesis accompanying the overturning of isentropic surfaces. These adjustments act to turn air parcels to the right of the southwesterly geostrophic wind vector at successively lower atmospheric levels as the scale contraction continues. This simulated along-stream front is verified from diagnostic analysis of the profiler-derived temperature and wind fields.With 17 Figures 相似文献