共查询到20条相似文献,搜索用时 15 毫秒
1.
An ensemble of random-phase internal gravity waves is considered in the dynamical framework of the Euler–Boussinesq equations. For flows with zero mean potential vorticity, a kinetic equation for the mean spectral energy density of the waves is obtained under hypothesis of Gaussian statistics with zero correlation length. Stationary scaling solutions of this equation are found for almost vertically propagating waves. The resulting spectra are anisotropic in vertical and horizontal wave numbers. For flows with small but non-zero mean potential vorticity, under the same statistical hypothesis applied to the wave part of the flow, it is shown that the vortex part and the wave part decouple. The vortex part obeys a limiting slow dynamics equation exhibiting vertical collapse and layering which may contaminate the wave-part spectra. Relation of these results to the in situ atmospheric measurements and previous work on oceanic gravity waves is discussed. 相似文献
2.
热带风暴中波动特征的研究进展和问题 总被引:9,自引:2,他引:9
在分析热带风暴眼壁和螺旋雨带中尺度波动特征最新研究的基础上,指出这些研究所忽略的问题,其中包括重力惯性波和涡旋Rossby波波解存在的前提条件和约束、理论分析与观测研究存在的差异等。提出一种基于准平衡动力条件下,热带风暴内中尺度扰动涡散运动共存时,区别于标准模混合的不可分的混合涡旋Rossby-重力惯性波,并讨论了位涡守恒条件下这一类不可分混合波的可能成波机制。利用高分辨率的模式大气资料,采用非对称波分量的分解方法分析了Bonnie飓风中的中尺度波动特征,结果表明,热带风暴中1波型扰动既具有涡旋波性质,但也存在散度扰动的变化,而2波型扰动则体现了明显的不可分混合波的特性。 相似文献
3.
High-accuracy large-eddy simulations of neutral atmospheric surface-layer flow over a gapped plant canopy strip have been
performed. Subgrid-scale (SGS) motions are parameterized by the Sagaut mixed length SGS model, with a modification to compute
the SGS characteristic length self-adaptively. Shaw’s plant canopy model, taking the vertical variation of leaf area density
into account, is applied to study the response of the atmospheric surface layer to the gapped dense forest strip. Differences
in the region far away from the gap and in the middle of the gap are investigated, according to the instantaneous velocity
magnitude, the zero-plane displacement, the potential temperature and the streamlines. The large-scale vortex structure, in
the form of a roll vortex, is revealed in the region far away from the gap. The nonuniform spatial distribution of plants
appears to cause the formation of the coherent structure. The roll vortex starts in the wake of the canopy, and results in
strong fluctuations throughout the entire canopy region. Wind sweeps and ejections in the plant canopy are also attributed
to the large vortex structure. 相似文献
4.
Study on the Dynamic Characteristics of an Eastward-offshore Mesoscale Vortex along the Meiyu-Baiu Front 
下载免费PDF全文
下载免费PDF全文 The eastward-moving Meiyu-Baiu frontal mesoscale vortices (MBFMVs) appear frequently and often cause heavy rainfall events along their tracks. A move-off-shore MBFMV was selected to enhance our understanding of this type of vortex. Synoptic analyses indicate that the MBFMV is a type of meso-α vortex and mainly occurs in the lower troposphere. A short wave trough near the coastline is highly favorable for the formation, sustainment, and displacement of the MBFMV. Vorticity budgets indicate that at lower levels of the MBFMV, convergence is the dominant factor for the increase of positive vorticity, and at high levels of the MBFMV, the vertical transportation associated with convective activities is the most important factor. The hori-zontal transportation was the main factor decreasing the positive vorticity. The land and sea environments are crucial to the evolution of the MBFMV. The characteristics of the Meiyu-Baiu Front (MBF) are also vital to the variation of the vortex. 相似文献
5.
6.
引发暴雨天气的中尺度低涡的数值研究 总被引:1,自引:1,他引:0
2008年7月17—19日发生在山东的大到暴雨天气是由“海鸥”台风和副热带高压共同向山东输送水汽,与弱冷空气相互作用造成的。对流层低层的中尺度低涡是暴雨天气的直接制造者。利用常规观测资料和中尺度模式WRF(Weather Research and Forecasting)的模拟资料对该中尺度低涡的结构及形成机制进行了分析研究。结果表明,数值模拟可以清楚地捕捉到中尺度低涡东移过程中有新的涡旋中心形成,并与原来的涡旋中心合并的过程,而不是简单的沿切变线东移。中尺度低涡形成在增温增湿明显、上升运动为主的对流区内;中尺度低涡形成后其中心转为下沉运动,对流区东移,降水区位于低涡的东北和东南象限。中尺度低涡上空近地面层的冷池、600~400hPa的弱冷空气堆、900~850hPa的弱风区及高低空急流耦合发展是中尺度低涡形成和发展阶段的重要特征。中尺度低涡减弱阶段,下沉运动变强,低空急流和高空出流都明显减弱。涡度方程的收支表明,对流层低层的散度项、倾侧项及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。中低层的水平辐合、涡度由低层向高层的垂直输送都有利于中尺度低涡的形成和发展。倾侧项对中尺度低涡的形成也有重要贡献。中尺度低涡形成后期,低层辐合、高层辐散及垂直输送的减弱导致正涡度制造的减弱,从而使中尺度低涡减弱。 相似文献
7.
Results of laboratory and numerical experiments on both homogeneous and density-stratified flow over single, bluff obstacles of various shapes are presented. The obstacle height is in most cases of the same order as the base diameter and the major controlling (flow) parameter is the Froude number, defined here as Fh=U/Nh, where U is the (uniform) upstream velocity, h the obstacle height and N is the buoyancy frequency. Attention is concentrated, firstly, on the case of homogeneous flows over rather weakly tapered obstacles and, secondly, for bodies whose height is similar to their base width, on the case Fh=0.1, representing stratification sufficiently strong that lee-wave motions do not play a significant role in the flow dynamics. For right-circular cones it is shown that the sectional contributions to the total fluctuating side force (lift) show significant phase variations up the height of the obstacle, which are not always reflected in the developed vortex street further downstream. For some obstacle shapes, the vortex lines linking the von Karman eddies at different heights can be significantly tilted, particularly in the upper part of the wake. Vortex convection speeds do not appear generally to vary greatly with height and, as found in previous work, the shedding frequency remains constant with height, despite the strong variation of cross-stream obstacle width. By comparison with the homogeneous results, it is suggested that the stratification enhances the shedding instability, which would otherwise be very weak for squat obstacles, but does not annihilate the ability of the flow at one level to influence that at another. 相似文献
8.
Based on a barotropic vortex model, generalized energy-conserving equation was derived and two
necessary conditions of basic flow destabilization are gained. These conditions correspond to generalized
barotropic instability and super speed instability. They are instabilities of vortex and gravity inertial wave
respectively. In order to relate to practical situation, a barotropic vortex was analyzed, the basic flow of which is similar to lower level basic wind field of tropical cyclones and the maximum wind radius of which is 500 km.
The results show that generalized barotropic instability depending upon the radial gradient of relative vorticity
can appear in this vortex. It can be concluded that unstable vortex Rossby wave may appear in barotropic vortex. 相似文献
9.
This article deals with the ocean circulation driven by steady zonal winds, and damped by bottom and biharmonic friction, when represented by the simple barotropic vorticity equation. A double gyre antisymmetrical wind stress pattern in a square basin is considered. Wind forcing and dissipation parameters are chosen within the ranges of what has been used in previous studies. The flow characteristics for both steady and unsteady situations are tentatively described as functions of model external parameters through the analysis of a large set of numerical experiments. Functional relations are derived for the mid-latitude jet parameters (length, width and transport) on the basis of scaling arguments. With the diagrams established for these quantities in forcing and dissipation parameter relations allow quantitative predictions of model response to a wide range of parameter choices to be made. The transition to barotropic instability is interpreted by analysing and comparing the spin-up phase of different numerical experiments leading either to stable or unstable solutions. Two major types of destabilization are identified, namely through meandering of the mid-latitude eastward jet and Rossby wave radiation from the westward return flow. The characteristics of the flows are shown to be highly sensitive to the external parameter changes. Competition between eddy kinetic energy level and eastward jet extension appears to consttitute the key point of this class of solutions, controlling in particular the intensity of transport in the inner gyres, driven by the eddy field on the two sides of the mid-basin jet, in a very similar manner to that of the more complex multilayered EGCMs. 相似文献
10.
We study the vorticity field induced by flow around surface mounted obstacles, focussing on the streamwise vorticity. A combination of analytical and numerical model results indicates that the mechanisms for the generation of the mean flow vorticity, as well as its form and magnitude, are not significantly influenced by turbulence, at least for a first-order turbulence closure. This result is in qualitative agreement with suggestions of previous studies. The numerical model is used to simulate flow around an asymmetric hill and, in terms of the shape and positioning of the trailing vortex, good agreement is found between the simulations and observations. However, the strength of the vortex appears to be significantly underestimated by the numerical model. The influence of the slope of the hill and of the angle of incidence of the mean wind on the trailing vorticity is also investigated. Finally, it is found that the occurrence of a dominant trailing vortex, at least one of the strength predicted by the numerical model, does not have a significant impact on the momentum budget of the downstream boundary layer. 相似文献
11.
The Conservation of Helicity in Hurricane Andrew (1992) and the Formation of the Spiral Rainband 总被引:5,自引:0,他引:5
The characteristics of helicity in a hurricane are presented by calculating the MM5 model output in addition to theoretical analysis. It is found that helicity in a hurricane mainly depends on its horizontal component, whose magnitude is about 100 to 1000 times larger than its vertical component. It is also found that helicity is approximately conserved in the hurricane. Since the fluid has the intention to adjust the wind shear to satisfy the conservation of helicity, the horizontal vorticity is even larger than the vertical vorticity, and the three-dimensional vortices slant to the horizontal plane except in the inner eye. There are significant horizontal vortices and inhomogeneous helical flows in the hurricane. The formation of the spiral rainband is discussed by using the law of horizontal helical flows. It is closely related to the horizontal strong vortices and inhomogeneous helical flows. 相似文献
12.
利用2008年6月广西致洪暴雨过程高分辨率数值模式资料,分析引起暴雨的中尺度涡旋在移动和持续性发展过程中其内部结构的演变以及系统的动力学特征。研究结果表明,中尺度涡旋是导致此次广西暴雨的主要系统,其发展移动过程中伴随有强烈上升运动的深厚湿对流,并在中高层持续形成明显的暖心结构。此次涡旋系统移动过程可分为涡旋南移和涡旋东移两个阶段,由于受到环境场的影响,涡旋中心区域动量、热量和水汽的再分配为其持续性发展提供有利条件。同时诊断分析表明,涡旋内部存在具有继发特征的长时间维持的组织化深厚湿对流系统,以强非地转分量为特征的超地转流,并表现出涡散运动共存且同量级的特征,具有典型的准平衡特征。 相似文献
13.
本文使用常规观测资料、四川省自动站降水资料、0.1°×0.1°的FY-2E云顶亮温资料和1°×1°的NCEP再分析格点资料对2012年7月20~23日四川东部强降水过程的主要影响系统、水汽源地、动力、热力条件等进行诊断分析,结果表明:(1)本次暴雨过程中伴有500hPa高空槽东移至四川并向南加深发展,槽后冷空气与槽前暖湿气流在四川汇合,低层有低涡发展,配以高低空急流耦合的有利形势;(2)暴雨前期水汽主要来源于孟加拉湾,随着南海台风西进,其外围偏东气流向西输送增强,西南暖湿气流北上受到抑制,使得雨带南压;(3)降水以对流性降水为主,暴雨期间水汽凝结潜热在对流层中低层起主要作用,强上升运动将低层的潜热加热向上输送,形成高空的热源中心,强降水期间大气的加热是与大气的垂直上升运动密切相关的;在本次暴雨过程垂直输送项是视热源Q1和视水汽汇Q2的主要贡献者,尤其是在强降水阶段;(4)在低涡在发展阶段,低层正涡度局地变化项首先得到发展,在低涡减弱阶段,正涡度局地变化项的峰值中心由低层向中低层抬升;(5)中尺度对流系统与小时降水分布一致,MCS的发展是触发降水的重要因素之一。 相似文献
14.
Diagnostic Analysis of the Quasi-Balanced Flow of a Mesoscale Vortex During the 12 June 2008 Guangxi Rainstorm 下载免费PDF全文
下载免费PDF全文 By using the high-resolution observation data and MM5 model simulation data, the analysis on the 12
June 2008 Guangxi flash-flood rainstorm shows that the associated major mesoscale weather system of this
event is a quasi-stationary mesoscale vortex, which resulted from the interaction between the midlatitude
synoptic-scale waves in the westerly belt and the low-latitude warm-moist flow under the terrain effect. The
genesis, development, and movement of the mesoscale vortex have significant impacts on the intensity and
persistence of the severe precipitation from the Guangxi flash-flood rainstorm. This vortex is characterized
by the coexistence of strong vorticity and divergence with the same order of magnitude. Well organized,
deep, and moist convection was observed for a long period of time, and was produced by the interaction
between the mesoscale vortex and the gravity waves. The latter was generated by the terrain effect and the
ageostrophic effect of high winds in the low-level jet. According to the quasi-balanced dynamical theory,
quasi-balanced flow must have existed in the mesoscale motions with both divergent and rotational winds.
Thus, based on the diagnosis of the quasi-balanced flow, the PV-ωinversion method is employed to analyze
the organized moist convection. The results show that 50%-70% of the vertical circulation in the rainstorm
areas was quasi-balanced, so the quasi-balanced flow could well reflect features of the strong vertical motions
associated with the coexistence of vorticity and divergence during this event. 相似文献
15.
Effects of Street-Bottom and Building-Roof Heating on Flow in Three-Dimensional Street Canyons 总被引:4,自引:0,他引:4
Using a computational fluid dynamics(CFD)model,the effects of street-bottom and building-roof heating on flow in three-dimensional street canyons are investigated.The building and street-canyon aspect ratios are one.In the presence of street-bottom heating,as the street-bottom heating intensity increases,the mean kinetic energy increases in the spanwise street canyon formed by the upwind and downwind buildings but decreases in the lower region of the streamwise street canyon.The increase in momentum due to buoyancy force intensifies mechanically induced flow in the spanwise street canyon.The vorticity in the spanwise street canyon strengthens.The temperature increase is not large because relatively cold above-roof-level air comes into the spanwise street canyon.In the presence of both street-bottom and building-roof heating,the mean kinetic energy rather decreases in the spanwise street canyon.This is caused by the decrease in horizontal flow speed at the roof level,which results in the weakening of the mean flow circulation in the spanwise street canyon.It is found that the vorticity in the spanwise street canyon weakens.The temperature increase is relatively large compared with that in the street-bottom heating case,because relatively warm above-roof-level air comes into the spanwise street canyon. 相似文献
16.
北京7.21暴雨低涡演变的湿位涡分析 总被引:1,自引:0,他引:1
通过诊断再分析资料和数值模拟结果,从中层湿位涡守恒和低层湿位涡变化的角度分别对北京7.21暴雨过程中中尺度低涡的演变进行分析。结果表明,暴雨前期,对流层中高层高湿位涡的冷空气扩散南下,冷空气到达华北地区上空时,在有利等熵面的引导下从稳定层结向不稳定层结快速下滑,产生了剧烈的正涡度个别变化,使得低涡得到发展加强。另一方面,等熵面上冷暖空气的剧烈交汇在增强雨势的同时,也使得对流层低层至中层产生明显的涡度制造。在不考虑稳定度影响时,低层的非绝热过程引起的湿位涡制造与低涡发展有着很好的正相关,二者在位置上和量级上都有很好的对应。进一步分析表明,非绝热加热的水平不均匀分布是引起湿位涡变化的主要原因。 相似文献
17.
LUO Zhexian 《Acta Meteorologica Sinica》2004,18(2):179-194
By using an f-plane barotropic quasi geostrophic model in the rectangular coordinates with a grid spacing of 5 km,ten experiments whose integration time is 36 hours are performed in order to study the interaction between a typhoon vortex and a mesoscale vortex whose initial center position is located at 2 rm northwest to the typhoon center,where rm is the radius of maximum wind of the typhoon vortex. Results show that the interaction can create a pair of smaller scale vortices or lumps,which extend from the outside region of the typhoon to near its center,resulting in the inward propagation of mesoscale vorticity.In this process,the vorticity concentration of the mesoscale vortex may appear.The coexistence of the propagation and the concentration makes the increase of vorticity in the inside region i.e.a more intensive typhoon.Meanwhile,the intensity of the lump with positive vorticity oscillates with time,with the oscillation period being several hours,the distance from the typhoon center to the lump center also has a similar oscillation period,which reduces the oscillation of typhoon intensity.In the case of stronger circular basic flow,the interaction can make the intensification of typhoon more obviously. In addition,in some parametric conditions,the interaction may break down the continuous vorticity zone,exhibiting a cluster of smaller vorticity lumps. 相似文献
18.
A Study on a Heavy Rainfall Event Triggered by an Inverted Typhoon Trough in Shandong Province 总被引:2,自引:0,他引:2 下载免费PDF全文
下载免费PDF全文 A heavy rainfall event that occurred in Shandong Province in 26 28 August 2004 was caused mainly by Typhoon Acre and cold air activities related to a westerly trough. The event was triggered by an inverted typhoon trough, which was closely associated with the intensification of the low-level southeasterly flow and the northward transport of heat and momentum in the periphery of the typhoon low. A numerical simulation of this event is performed using the nonhydrostatic mesoscale model MM5 with two-way interactive and triply-nested grids, and the structure of the inverted typhoon trough is studied. Furthermore, the formation and development mechanism of the inverted typhoon trough and a mesoscale vortex are discussed through a vorticity budget analysis. The results show that the heavy rainfall was induced by the strong convergence between the strong and weak winds within the inverted typhoon trough. Dynamic effects of the low-level jet and the diabatic heating of precipitation played an important role in the development of the inverted typhoon trough and the formation of the mesoscale vortex. The vorticity budget analysis suggests that the divergence term in the low troposphere, the horizontal advection term, and the convection term in the middle troposphere were main contributors to positive vorticity. Nonetheless, at the same pressure level, the effect of the divergence term and that of the adveetion term were opposite to each other. In the middle troposphere, the vertical transport term made a positive contribution while the tilting term made a negative contribution, and the total vorticity tendency was the net result of their counteractions. It is found that the change tendency of the relative vorticity was not uniform horizontally. A strong positive vorticity tendency occurred in the southeast of the mesoscale vortex, which is why the heavy rainfall was concentrated there. The increase of positive vorticity in the low (upper) troposphere was caused by horizontal convergence (upward transport of vorticity from the lower troposphere). Therefore, the development of the inverted typhoon trough and the formation of the mesoscale vortex were mainly attributed to the vorticity generated in the low troposphere, and also the vertical transport of vorticity from the low and middle troposphere. 相似文献
19.
Typhoon is regarded as a convergent,modified Rankine vortex.Based on the vorticity equations written attwo levels,higher and lower in the troposphere,typhoon motions are discussed in this study.The analyticalexpressions of vortex motion direction and speed have been derived for simple homogeneous basic flows at twolevels.The expressions indicate that in the easterties,vertical wind shear enhances the steering of east flow,causing the vortex moving westward faster,otherwise,in the westerlies,it reduces the steering of the west flow,causing the vortex moving eastward slower.These results explain theoretically that“cyclones in the easterliesmove to the right of,and faster than the basic flow;conversely,cyclones in the westerlies move to the left of,andslower than the basic flow.” 相似文献
20.
2008年1月中国南方遭遇罕见的大范围冰冻雨雪灾害, 本文利用NCEP/NCAR逐日再分析资料和等熵位涡分析方法, 分析了这次冰雪灾害期间平流层极涡的变化及其对对流层的影响。结果表明: 平流层极涡在2007年12月已经开始增强, 到1月中旬亚洲北部极地平流层极涡变得异常强大。高位涡冷空气向南扩展时, 沿着倾斜的等熵面运动, 从极地平流层上层一直延伸到中低纬度对流层。低层高位涡冷空气主体比较靠北, 华北一带为低位涡区; 南方为高位涡区, 呈东北—西南向伸展, 引导北方高位涡主体冷空气和西南暖湿气流在此汇合, 引起大范围降温和降雪。 相似文献