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1.
Dynamical and Thermal Problems in Vortex Development and Movement. Part I: A PV–Q View 总被引:3,自引:1,他引:2 
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下载免费PDF全文 Based on the Lagrangian change equation of vertical vorticity deduced from the equation of threedimensional Ertel potential vorticity(PV e),the development and movement of vortex are investigated from the view of potential vorticity and diabatic heating(PV-Q).It is demonstrated that the asymmetric distribution in the vortex of the non-uniform diabatic heating in both vertical and horizontal can lead to the vortex’s development and movement.The theoretical results are used to analyze the development and movement of a Tibetan Plateau(TP) vortex(TPV),which appeared over the TP,then slid down and moved eastward in late July 2008,resulting in heavy rainfall in Sichuan Province and along the middle and lower reaches of the Yangtze River.The relative contributions to the vertical vorticity development of the TPV are decomposed into three parts:the diabatic heating,the change in horizontal component of PV e(defined as PV 2),and the change in static stability θ z.The results show that in most cases,diabatic heating plays a leading role,followed by the change in PV 2,while the change of θ z usually has a negative impact in a stable atmosphere when the atmosphere becomes more stable,and has a positive contribution when the atmosphere approaches neutral stratification.The intensification of the TPV from 0600 to 1200 UTC 22 July 2008 is mainly due to the diabatic heating associated with the precipitation on the eastern side of the TPV when it uplifted on the up-slope of the northeastern edge of the Sichuan basin.The vertical gradient of diabatic heating makes positive(negative) PV e generation below(above) the maximum of diabatic heating;the positive PV e generation not only intensifies the low-level vortex but also enhances the vertical extent of the vortex as it uplifts.The change in PV e due to the horizontal gradient of diabatic heating depends on the vertical shear of horizontal wind that passes through the center of diabatic heating.The horizontal gradient of diabatic heating makes positive(negative) PV e generation on the right(left) side of the vertical shear of horizontal wind.The positive PV e generation on the right side of the vertical shear of horizontal wind not only intensifies the local vertical vorticity but also affects direction of movement of the TPV.These diagnostic results are in good agreement with the theoretic results developed from the PV-Q view. 相似文献
2.
西大西洋锋面气旋过程的数值模拟和等熵分析 总被引:15,自引:4,他引:15
文中使用PSU/NCARMM 5非静力数值模式对 1992年 3月 13~ 15日发生在西大西洋上的一次海洋气旋爆发过程进行了 6 0h的模拟 ;基于倾斜涡度发展理论 ,从等熵面倾斜的角度研究了气旋的发生、发展、运动和变化 ,利用高分辨率模拟结果对这次过程进行了分析。模拟结果很好地再现了气旋的发生、移动、加深、气旋的热力结构以及地面环流等特征。其中主要气旋M在6 0h的模拟中共降压 4 5hPa ;第 36~ 4 2时 (模式时间 ) 6h内降压达 12hPa。剖面图及等熵面图分析指出 ,气旋的发生、发展、运动和变化与等熵面或等相当位温面的倾斜密切相关 ,气旋中心总是位于等熵面或等相当位温面近于垂直的对流中性地区 ,这与倾斜涡度发展理论的阐述是一致的。气旋在弱静力稳定度的海洋表面启动发展之后 ,气旋与大尺度环境场相互作用 ,气旋得到迅速发展。“倾斜涡度发展理论”(以下简称SVD理论 )可以很好地解释此次海洋锋面气旋的发展与移动。气旋的发展和移动与等熵面的倾斜密切相关 ,发展期气旋前部及其移动路径前方自组织的斜升气流与倾斜的等熵面相配合 ,共同构成上滑“倾斜涡度发展”(SVD理论的推广 ,以下简称USVD理论 )的必要因子 ,在一定的条件下 (C·D<0 ,CD 为SVD指数 ) ,使得气旋及其前方 ,尤其是移动路径前方出现USVD发� 相似文献
3.
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
4.
CONSERVATION OF MOIST POTENTIAL VORTICITY AND DOWN-SLIDING SLANTWISE VORTICITY DEVELOPMENT* 下载免费PDF全文
下载免费PDF全文 An accurate form of the moist potential vorticity(MPV) equation was deduced from a complete set of primitive equations.It was shown that motion in a saturated atmosphere without diabatic heating and friction conserves moist potential vorticity.This property was then used to investigate the development of vertical vorticity in moist baroclinic processes.Results show that in the framework of moist isentropic coordinate,vorticity development can result from reduction of convective stability,or convergence,or latent heat release at isentropic surfaces.However,the application of the usual analysis of moist isentropic potential vorticity is limited due to the declination of moist isentropic surfaces.and a theory of development based on z-coordinate and p-coordinate was then proposed.According to this theory,whether the atmosphere is moist-symmetrically stable or unstable,on convective stable or unstable,the reduction of convective stability,the increase of the vertical shear of horizontal wind or moist baroclinity may result in the increase of vertical vorticity,so long as the moist isentropic surface is slantwise.The larger the declination of the moist isentropic surface,the more vigorous the development of vertical vorticity.In a region with a monsoon front to the north and the warm and moist air to the south,or by the north of the front,the moist isentropes are very steep.The is the region most favorable for development of vorticities and formation of torrential rain.For a case of persistent torrential rain occurring in the middle and lower reaches of the Changjiang and Huaihe Rivers in June 11-15,1991,moist potential vorticity analysis,especially the isobaric analysis of its vertical and horizontal components,i.e.MPV1 and MPV2,respectively,is effective for identifying synoptic systems not only in middle and high latitudes,but also in low latitudes and in the lower troposphere.It can serve as a powerful tool for the diagnosis and prediction of torrential rain. 相似文献
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2005年05号台风“海棠”登陆福建后,在外围云系里有1个明显发展的中尺度对流云团经过温州东部及北部地区,引起了强降水。通过分析这次中尺度对流系统的环流形势,得到该次中尺度对流系统的垂直结构特征,并对中尺度强对流系统的形成和发展机制进行研究。结果表明:台风东南急流在温州附近冷区边缘处低层受地形影响发生强烈辐合引起的垂直上升运动和冷暖空气相汇产生的对流不稳定性是台风环流内中尺度对流系统的主要形成机制;对流系统在暖湿空气和冷空气中心交汇处发展,西北侧的冷空气堆迫使暖湿东南气流沿西北倾斜的等熵面爬升,有利于倾斜对流系统的发展;低层条件不稳定区与中层条件对称不稳定区叠加,产生对流对称不稳定,在湿等熵面倾斜引起的涡旋发展的强迫机制下在中层产生范围较广的倾斜上升对流;由于等熵面的倾斜,大气水平风垂直切变或湿斜压性增加,进一步加强涡度的发展,使得对流系统向西北方向发展;另外,源于东南沿海,由台风东南气流输送的水汽为特大暴雨的产生提供了有利的热力条件。 相似文献
6.
The Advanced Research Weather Forecasting (ARW) model was used to simulate the sudden heavy rainstorm associated with the remnants of Typhoon Meranti in September 2010. The results showed that the heavy rainfall was produced when the remnant clouds redeveloped suddenly, and the redevelopment was caused by rapid growth of micro/mesoscale convective systems (MCSs). As cold air intruded into the warm remnant clouds, the atmosphere became convectively unstable and frontogenesis happened due to strong wind shear between weak northerly flow and strong southwesterly flow in the lower levels. Under frontogenesis-forcing and warm-air advection stimulation in updrafts, vertical convection developed intensely inside the remnant clouds, with MCSs forming and maturing along the front. The genesis and development of MCSs was due to the great progress vertical vorticity made. The moist isentropic surface became slantwise as atmospheric baroclinity intensified when cold air intruded, which reduced the convective instability of the air.Meanwhile, vertical wind shear increased because the north cold air caused the wind direction to turn from south to north with height. In accordance with slantwise vorticity development (SVD), vertical vorticity would develop vigorously and contribute greatly to MCSs. Buoyancy, the pressure gradient, and the lifting of cold air were collectively the source of kinetic energy for rainfall. The low-level southwesterly jet from the western margin of the Western Pacific Subtropical High transported water and heat to remnant clouds. Energy bursts and continuous water vapor transportation played a major role in producing intense rainfall in a very short period of time. 相似文献
7.
湿位涡和倾斜涡度发展 总被引:266,自引:22,他引:266
从完整的原始方程出发,在导出精确形式的湿位涡方程的基础上,证得绝热无摩擦的饱和湿空气具有湿位涡守恒的特性。并由此去研究湿斜压过程中涡旋垂直涡度的发展。结果表明,在湿等熵坐标中,涡旋的发展与对流稳定度的减少,等熵面上的辐合和潜热的释放有关。由于等熵位涡分析的应用受等熵面倾斜的限制,又进而发展了Z坐标及P坐标中的倾斜涡度发展理论。指出无论是湿对称不稳定或对流不稳定大气,还是湿对称稳定或对流稳定大气,除对流稳定度的影响外,风的垂直切变的增加或水平湿斜压的增加均能因湿等熵面的倾斜而引起垂直涡度的增长。湿等熵面的倾斜越大,这种由干湿斜压性加强所引起的涡旋发展更激烈。在梅雨锋附近及其南侧暖湿区的北端,湿等熵面十分陡立,是涡旋发展及暴雨发生的重要地区。对1991年6月12—15日江淮流域暴雨过程的湿位涡分析表明,湿位涡分析,尤其是等压面上湿位涡量MPV1和MPV2的分析不仅在中高纬有效,在低纬度及低对流层也十分有效,是暴雨诊断和预报的有力工具。 相似文献
8.
阿克苏北部暴雨和冰雹湿位涡对比诊断分析 总被引:7,自引:0,他引:7
应用湿位涡理论,分别对阿克苏北部2次暴雨和冰雹过程进行诊断分析。结果表明:θse面陡立易导致湿斜压涡度发展,形成θse陡峭密集区,密集区内暴雨和冰雹容易发生;850hPa MPV1〈0和MPV2〉0以及700hPa MPV1〉0和MPV2〈0,易产生暴雨,且MPV1和MPV2数量级相当,即正压过程与斜压过程同样重要。冰雹发生时850hPa MPV1〉0和MPV2〈0,由于影响系统的不同,700hPa MPV1和MPV2分布有所不同,但存在MPV1和MPV2的正负配置,有利于倾斜涡度发展。 相似文献
9.
等熵面和湿等熵面倾斜发展的诊断分析 总被引:3,自引:0,他引:3
利用等压坐标系中的热力学方程和水汽方程推导出可以诊断分析等熵面(等位温面)和湿等熵面(等相当位温面) 倾斜变化的倾角方程。等熵面倾角的局地变化由倾角平流输送项、风速切变项和非绝热加热项共同决定,而影响湿等熵面倾角局地变化的强迫项除倾角平流输送项、风速切变项和非绝热加热项之外,还包括垂直热量通量切变项。NCEP/NCAR实时分析资料的分析结果表明,大气斜压性、相对垂直涡度与等熵面和湿等熵面的倾角密切相关,它们的正高值区互相重叠;垂直风速切变项,特别是垂直速度的经向切变项是影响等熵面倾斜发展的主要强迫项,而纬向和经向风速的垂直切变项对湿等熵面倾角演变的贡献最大。 相似文献
10.
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
11.
应用倾斜涡度发展理论,对云南的一次冬季强降水天气进行诊断分析。结果表明:强降水发生在θe 陡立密集区内;倾斜涡度发展和条件性对称不稳定是形成强降水的重要因子;大气的弱位势稳定和强斜压性有利于云南冬季强降水的发生。 相似文献
12.
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
13.
By using PSU/NCAR MM5 mesoscale model,a 60-h simulation is performed to reproduce a frontal cyclogenesis over the Western Atlantic Ocean during March 13-15 1992.The model reproduces well the genesis,track and intensity of the cyclone,its associated thermal structure as well as its surface circulation.The major cyclone (M) deepens 45 hPa in the 60-h simulation and 12 hPa in 6 hours from 36 h to 42 h (model time) and 27 hPa in 24 hours from 36 h to 60 h (model time).Cross-section and isentropic analysis tell us that the cyclogenesis is in very close relation with slantwise isentropic surfaces;the cyclone is always superposed on the core of neutral convective stability with nearly vertical isentropic surfaces,which coincides with what the theory of Slantwise Vorticity Development (SVD) says.Beginning with the theory of SVD,the development and propagation of the oceanic frontal cyclone are studied by using high-resolution model output in the context of slantwise isentropic surfaces.The results show that the frontal cyclone deepens rapidly by the interaction with the large-scale environment after occurring over the ocean with weak static stability;and the theory of SVD can well interpret the development and propagation closely related with slantwise isentropic surfaces,The downstream slantwise up-sliding movement along canting isentropic surfaces makes vorticities develop (USVD) under favorable condition (CD<0,where CD is SVD index),and results in the moving and development of the cyclone. 相似文献
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15.
利用探空、地面自动气象站、多普勒天气雷达和NCEP/NCAR再分析等资料,对2006年4月28日影响山东大部的强飑线过程的中尺度结构进行了诊断分析。此次强飑线是由东北冷涡横槽沿西北气流下滑激发对流发展形成的,冷涡横槽底部为后倾的干冷下沉气流区,干空气侵入有利于位势不稳定能量的储存。冷涡横槽在300 hPa最为强盛,并连接横槽前后南北两支急流,对流层顶折叠特征明显;高空横槽区的地转调整运动引发中尺度重力波,促进了高空急流动量向对流层中下部的传输,加剧了地面大风灾害。风暴发生区具有明显的等熵面倾斜、对流不稳定和垂直风切变,具有倾斜涡度剧烈发展的条件。风暴发生区中低层散度场、垂直速度场和地面风压扰动场均具有典型中尺度重力波的结构特征,风暴和中尺度重力波相互耦合促进,是强飑线发展维持的重要动力机制。 相似文献
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湿斜压性与热带气旋强度突变 总被引:23,自引:2,他引:23
应用湿位涡方程和倾斜涡度发展理论 ,研究了热带气旋内部相当位温结构的演变与其强度突变的可能关系 ,并用一套高分辨率的模拟资料对所得结论进行验证。结果表明 ,由于热带气旋眼壁附近等相当位温面陡立 ,湿斜压性变化所激发的倾斜涡度发展是引起该区域垂直涡度突然增大或突然减小的主要原因。当热带气旋中心附近大部分区域的垂直涡度显著增长时 ,热带气旋就会在整体上表现为爆发性或迅速发展。最后还据此对同心双眼结构的出现和消失如何影响热带气旋强度变化进行了探讨。 相似文献
17.
对山东省春秋季暴雨的气候特征和影响系统进行了分析, 制作了春秋季暴雨的平均环流形势图。分析了2003年春秋季两次大范围暴雨的环流特征和影响系统及暴雨期间大气的热力特征和水汽输送特征, 应用k-螺旋度和倾斜涡度发展理论, 分析了暴雨的形成机制。结果表明:4月暴雨均受气旋影响, 10月暴雨以冷锋影响居多。2003年4月17—18日为气旋暴雨, 10月10—12日为切变线冷锋暴雨。两次暴雨前都有低空偏南风急流向暴雨区输送水汽, 大气强烈增温增湿, 对流不稳定度增大, 湿斜压性增强。强冷锋南下触发对流不稳定能量释放, 产生暴雨。暴雨期间低层正k-螺旋度猛烈发展。暴雨前期中低层MPV1 < 0且MPV2 > 0, 冷锋影响期间MPV1 > 0且MPV2 < 0, 都有利于倾斜涡度发展, 增强了上升运动。 相似文献
18.
对2005年"海棠"台风倒槽造成河南特大暴雨过程的湿位涡分析结果表明:倾斜涡度发展是暴雨产生和加强的重要机制之一,暴雨产生在eθ线陡立密集区内,湿位涡在这次暴雨过程中边界层内925hPa具有MPV1>0、MPV2<0的特征,此次暴雨产生在正的MPV1中心附近,有利的地形条件在一定程度上增加了降水量。 相似文献
19.
1215号“布拉万”台风暴雨及降水非对称性分布的成因分析 总被引:9,自引:4,他引:5
利用中尺度非静力模式WRF对2012年第15号台风“布拉万”在中国东北地区造成的暴雨过程进行了数值模拟,结合观测资料对模拟结果进行了验证,利用模式输出的高分辨率资料,对“布拉万”台风造成的强降水及其非对称性分布的成因进行了诊断分析。结果表明,模式很好地再现了台风登陆过程中的路径、强度变化和降水分布,受中纬度西风槽带来的干冷空气影响,“布拉万”台风登陆后的降水和环流结构具有明显的不对称性,降水主要集中在台风中心西北侧的能量锋区附近。水汽散度通量和水汽螺旋度能够较好地描述强降水过程的发生、发展及其非对称性分布的时空特征,在强降水区,水汽散度通量表现为正值强信号,而水汽螺旋度表现为负值强信号,在非降水区和弱降水区,两者均表现为弱信号。等熵位涡分析显示,对流不稳定只是此次台风暴雨前期和初始阶段的不稳定条件,而湿位涡(MPV)的湿斜压项(MPV2)则是暴雨增强和出现非对称性分布的主要机制。在暴雨形成过程中,由于冷空气侵入造成了在台风环流西北侧湿等熵面的陡立倾斜和水平风垂直切变的增强,导致了气旋性涡度的显著增强,气旋性涡度增强造成的强烈上升运动将降水区东南侧输送过来的暖湿空气向上输送,从而导致了暴雨的发生,这其中条件性对称不稳定是降水得以加强的一种重要不稳定机制。 相似文献
20.
由观测和数值模拟结果分析发现,2019年8月5~6日中国西南部的东移型致灾暴雨事件中存在三涡(南北双高原涡、西南涡)相继发展并导致暴雨加强和移动的现象。借助数值试验,研究了多尺度地形因子(青藏高原、横断山脉和四川盆地三大地形)各自对涡旋演变的作用。结果表明,横断山脉对西南涡的形成起关键作用,四川盆地影响着西南涡的位置和强度。对于高原涡(南侧高原涡)的移动,四川盆地地形只影响涡旋强度演变,但不会改变高原涡的移动路径。一旦横断山脉被移除,高原涡的东移现象随之消失。进一步分析青藏高原和四川盆地交界处的陡峭地形坡度改变对涡旋发展的影响发现,发现坡度越陡,高原涡移动速度越快,且盆地内二涡合并后的西南涡强度越强。最后借助于倾斜涡度发展理论,解释了不同坡度对涡旋强度演变的影响:随着坡度变陡,倾斜涡度发展系数沿涡旋下滑路径快速减小,对垂直涡度局地倾向的强迫作用,加剧了涡旋的快速加强。 相似文献