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1.
CONSERVATION OF MOIST POTENTIAL VORTICITY AND DOWN-SLIDING SLANTWISE VORTICITY DEVELOPMENT* 
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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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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
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The mesoscale model MM4 is used to simulate the torrential rain associated with Meiyu frontoccurring 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 thepotential vorticity principle.The results show that because of the favorable pattern of moistisentropic surface,the absolute vorticity increases when cold air with high moist potential vorticityvalue rapidly slides down southwards along the moist isentropic surface,and then causes thecyclonic vortex development. 相似文献
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北半球阻塞高压的维持Ⅰ:准地转和Ertel位涡分析 总被引:2,自引:3,他引:2
从北半球不同地区的4个阻塞高压个例,研究了阻塞高压维持机制及其地域性差异。对阻塞高压区域300hPa时间平均准地转让涡低值区的维持机制的分析表明,该位涡低值区的维持机制存在显著的地域性差异。其中,在2个太平洋阻高个例中,时间平均流的位涡平流使低位涡向阻高西北部输送,从而有利于位涡低值区经向度的维持;时变扰动的位涡输送则有抵消平均流作用的倾向,从而对位涡低值区的维持起耗散作用。在大西洋和东亚阻高个例中,平均流的位涡平流使低位涡区向东移动,而时变扰动的位涡输送则有抵消平均流位涡平流的作用,从而有利于位涡低值区在原地稳定维持。以上主要是相对涡度输送的差异所致。等熵面Ertel位涡分析表明,阻高区域330K时间平均等熵位涡低值区的维持机制与300hPa时间平均准地转位涡低值区的维持机制十分相似,从而表明以上等压面准地转位涡分析可以近似用来代表等熵Ertel位涡分析。 相似文献
6.
ISENTROPIC POTENTIAL VORTICITY ANALYSIS ON THE MESOSCALE CYCLONE DEVELOPMENT IN A TORRENTIAL RAIN PROCESS* 下载免费PDF全文
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
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滇中暴雨的湿位涡诊断分析 总被引:50,自引:21,他引:29
应用湿位涡理论,对1998年6月滇中地区罕见的6场暴雨过程进行了诊断分析。结果表明:θe面陡立且南侧暖湿气流活跃,易导致湿斜压涡度发展,形成θe陡峭密集区,密集区内暴雨容易发生;湿空气对流活动层仅能达到500hPa至600hPa之间,若对流层低层MPV1〈0,同时MPV2〉0,易产生暴雨。 相似文献
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全型涡度方程和经典涡度方程比较 总被引:15,自引:4,他引:15
在简要回顾经典涡度方程和全型涡度方程推导的基础上 ,比较了两种涡度方程的异同。集中讨论全型涡度方程新的物理内涵 ,证明了与稳定度和斜压性变化 (锋生、锋消过程 )相联系的内部强迫以及与摩擦耗散和非绝热加热相联系的外部强迫所诱发的涡度发展的机制。最后 ,指出了全型涡度方程的天气和气候应用前景。 相似文献
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The NCEP 1°×1°reanalysis of June-to-September dataset between 2002 to 2009 is used in this study to conduct statistical analysis of the relationship between the environmental potential vorticity(PV)on 150 hPa located at the south edge of South Asia High(SAH)and TCs making landfall.The results show that 23 of the TCs are affected by the PV on 150 hPa located at the south edge of SAH between 2002 to2009,and three TCs'center pressure decline after the high-value environmental PV moves to the center of the TCs.These three TCs are Senlaku(0216),Bilis(0604)and Linfa(0903).Through diagnostic analysis from the viewpoint of isolines,we determined the relationship between the intensification of these TCs and the PV anomaly at high levels;the isentropic surface is close to the high level’s PV anomaly under the influence of the 150-hPa PV anomaly,leading to the decline of isentropic surfaces on both sides of the PV anomaly.Then the warm core of the middle and high levels of the TC strengthens and PV increases at the middle level,and both of them are beneficial to the reinforcement of the cyclonic vorticity in the low level.As a result,the center pressure of the TC declines.According to Wu’s theory of Slantwise Vorticity Development(SVD),the incline of the isentropic surfaces leads to the development of vertical vorticity,contributing to the vertical motion and the release of the latent heat.Then the warm core of the TC strengthens and the TC strengthens,too.Otherwise,piecewise PV inversion also shows that the high-level PV influences the mid-level more than the low level. 相似文献
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In this paper,the local potential of nondivergent flow on beta plane is derived from the motion equa-tion.The conservation principle for vorticity is obtained when the local potential tends to be minimumwith the variational technique.Some other properties st,ch as Lagrangian of vorticity equation,energyetc.are also discussed briefly in the paper. 相似文献
13.
THE RELATIONSHIP BETWEEN HORIZONTAL VORTICITY INDUCED BY
VERTICAL SHEAR AND VERTICAL MOTION DURING A SQUALL LINE
PROCESS 总被引:2,自引:0,他引:2
The horizontal vorticity equation used in this study
was obtained using the equations of motion in the pressure
coordinate system without considering friction, to reveal its
relationship with vertical shear. By diagnostically analyzing
each term in the horizontal vorticity equation during a squall
line process that occurred on 19 June 2010, we found that the
non-thermal wind term had a negative contribution to the local
change of upward movement in the low-level atmosphere, and that
its impact changed gradually from negative to positive with
altitude, which could influence upward movement in the mid- and
upper-level atmosphere greatly. The contribution of upward
vertical transport to vertical movement was the largest in the
low-level atmosphere, but had negative contribution to the
upper-level atmosphere. These features were most evident in the
development stage of the squall line. Based on analysis of
convection cells along a squall line, we found that in the
process of cell development diabatic heating caused the
subsidence of constant potential temperature surface and non-
geostrophic motion, which then triggered strong convergence of
horizontal acceleration in the mid-level atmosphere and
divergence of horizontal acceleration in the upper-level
atmosphere. These changes of horizontal wind field could cause a
counterclockwise increment of the horizontal vorticity around
the warm cell, which then generated an increase of upward
movement. This was the main reason why the non-thermal wind term
had the largest contribution to the strengthening of upward
movement in the mid- and upper-level atmosphere. The vertical
transport of large value of horizontal vorticity was the key to
trigger convection in this squall line process. 相似文献
14.
The momentum advection vorticity equation in the form of cross multiplication is introduced, in
which the divergence term in the classic vorticity equation does not appear explicitly. This equation
includes the rotation effect of the horizontal wind advection, which are not explicitly included in the classic
vorticity equation. The vorticity and its tendency of Typhoon Fung-Wong (0808) that occurred in July 2008
are analyzed. The computed results show that the rotation effect of the advection of the horizontal wind is a
leading factor in determining the change of vertical vorticity for Fung-Wong during its life cycle, especially
in the period leading up to landfall. The advection term represents the tendency variation of the vertical
vorticity, and the positive-value region of the vertical vorticity tendency is almost in accord with the track
of Fung-Wong, which may be taken as a factor to locate the key observational region of Fung-Wong. The
equation provides a supplementary diagnostic tool for the systems related with strong advection of
horizontal wind. 相似文献
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关于大气运动湿位涡不守恒性问题 总被引:3,自引:0,他引:3
本文建立湿位涡方程、提出不守恒基本判据、分析不守恒运动的动力特征,尤其指出在湿中性层结区域非绝热加热和外作用力场对运动的激发作用。 相似文献
16.
MCC转为带状MCSs过程中水平涡度的变化与暴雨的关系 总被引:4,自引:0,他引:4
利用实况资料和WRF中尺度数值模式对2010年6月18—19日的一次MCC转带状MCSs的暴雨过程进行数值模拟与诊断分析。结果表明:850 hPa西南涡和切变线的形成与维持是影响此次暴雨产生的中尺度系统,前期MCC的形成到成熟以低涡降水为主,后期的圆形MCC转为带状MCSs主要为切变线降水。在雨区附近,u、v的垂直切变所形成的强水平涡度造成的旋转,对应垂直环流的上升支可触发暴雨产生,垂直方向上u、v不同的分布可形成不同的垂直环流。低涡与切变线附近的水平涡度有明显差异,这种差异导致暴雨形成的原因不同,低涡暴雨主要由v的垂直切变造成,切变线暴雨主要由u、v的垂直切变共同作用,本次过程中v的垂直切变构成了沿切变线的东西向雨带,u的垂直切变沿纬向的不均匀性引起的垂直运动与切变线上MCSs的生成、发展和多雨团的形成关系密切。低涡、切变线降水中心附近的正倾侧项(水平涡度向垂直正涡度转换)也有类似的差异,低涡的转换主要由?v/?p<0决定,切变线的转换主要由-?u/?p>0决定。水平涡度向垂直涡度的转换尺度较小,易在平均状态下被忽略。倾侧项主要有利于暴雨的加强,但对西南涡、切变线的发展贡献较小。 相似文献
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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
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鄂霍茨克海阻高发展过程的正斜压涡度和涡度拟能的演变特征 总被引:2,自引:0,他引:2
用正斜压分解法,对1998年发生在鄂霍茨克海的阻高进行涡度和涡度拟以分析,结果发现:在阻高的不同阶段,正压涡度和正压涡度拟能远大于斜压涡度和斜压涡度拟能且在不同的阶段有着不同的演变过程;在阻塞的酝酿阶段正压和斜压涡度和涡度拟能不稳定增长,且向西南传播;在维持阶段,正压和斜压涡度和涡度拟能的增长达到最大值,阻塞形势建立并维持在阻塞区域内;在消亡阶段,正压涡度和涡度拟能与斜压涡度拟能则呈现出不稳定减少,向东南传播,阻塞崩溃,然后又增长。 相似文献
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台风暴雨作为台风引起的最主要灾害之一,一直被人们关注。台风常被认为是对称结构,但从实际状况来看台风的非对称性非常明显,所以有必要研究斜压性涡度在台风中的表现。在高分辨率数值模拟的基础上,通过引入斜压涡度的概念,分析和总结了斜压涡度在2009年台风“莫拉克”暴雨过程中的表现。通过模拟与分析得到如下的结果:斜压涡度和MPV对比,可以看出在登陆前和登陆后,明显低层斜压涡度有更强的异常信号,围绕台风内核呈现正负正的位相特点;从沿着台风中心时间剖面可以看出,登陆前斜压涡度低层多为负正负的位相,并且随着时间的推移,斜压涡度有从大气的高层向台风的移动中心传递的趋势,即在台风即将到达时原先的正涡度被替换为负涡度,所以对其移动有一定指示意义;在台风“莫拉克”过台湾岛时,其斜压涡度表现为负涡度消失,在山地附近有正涡度生成,完成过岛,台风中心被替换;斜压涡度的异常值主要位于大气的低层时,一般会产生较强的降水。 相似文献
20.
Using real-time data and the WRF mesoscale model,a heavy rain event in the process of Mesoscale Convective Complex(MCC) turning into banded Mesoscale Convective Systems(MCSs) during 18-19 June 2010 is simulated and analyzed in this paper.The results indicated that the formation and maintenance of a southwest vortex and shear line at 850 h Pa was the mesoscale system that affected the production of this heavy rain.The low-vortex heavy rain mainly happened in the development stage of MCC,and the circular MCC turned into banded MCSs in the late stage with mainly shear line precipitation.In the vicinity of rainfall area,the intense horizontal vorticity due to the vertical shear of u and v caused the rotation,and in correspondence,the ascending branch of the vertical circulation triggered the formation of heavy rain.The different distributions of u and v in the vertical direction produced varying vertical circulations.The horizontal vorticity near the low-vortex and shear line had obvious differences which led to varying reasons for heavy rain formation.The low-vortex heavy rain was mainly caused by the vertical shear of v,and the shear line rainfall formed owing to the vertical shear of both u and v.In this process,the vertical shear of v constituted the EW-trending rain band along the shear line,and the latitudinal non-uniformity of the vertical shear in u caused the vertical motion,which was closely related to the generation and development of MCSs at the shear line and the formation of multiple rain clusters.There was also a similar difference in the positively-tilting term(conversion from horizontal vorticity to vertical positive vorticity) near the rainfall center between the low-vortex and the shear line.The conversion in the low vortex was mainly determined by бv/бp0,while that of the shear line by бu/бp0.The scale of the conversion from the horizontal vorticity to vertical vorticity was relatively small,and it was easily ignored in the averaged state.The twisting term was mainly conducive to the reinforcement of precipitation,whereas its contribution to the development of southwest vortex and shear line was relatively small. 相似文献