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1.
把流函数分成对赤道对称和对赤道反对称的两部分,可以把正压涡度方程分离为描写大气对称运动和反对称运动的两个方程。根据它们,讨论了在全球范围内几种基本物理量,如涡度和绝对角动量等在对称和反对称情况的守恒性。还给出了这两类运动的能量收支方程和能量转换表达式。可以看出,在大气中不仅有纬圈平均动能和扰动动能之间的转换,也有对称运动产生的和反对称运动产生的动能之间的转换。 还在涡度方程中考虑地形和水平扩散的情形下,提出了大气非对称性质产生的机制。结果表明:非对称的地形分布和水平扩散系数的分布可能是导致非对称运动的原因。 最后,还对全球预报和半球预报,从物理观点作了理论比较。 相似文献
2.
EFFECTS OF OROGRAPHY AND HORIZONTAL DIFFUSION ON THE GENERATION OF THE ASYMMETRIC MOTION IN THE BAROTROPIC FILTERED MODEL ATMOSPHERE 
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下载免费PDF全文 By utilizing the barotropic vorticity equation including effects of orography and horizontal diffusion,the linearized equations describing symmetric and antisymmetric motions and their analytic solutions are pre-sented.It can be found from the solutions that no matter what kind of motion may be,each solution consistsof three waves,namely,Rossby wave related to initial values,marching wave propagating at Rossby wavevelocity and stationary wave.The latter two are closely related to orography and horizontal diffusion.However,if the motion is symmetric at the initial instant,then the antisymmetric components of orographyand of horizontal diffusion are likely to lead to the generation of antisymmetric motion.In the steady state,the symmetric flow is connected with symmetric orography and horizontal diffusion and the antisymmetricflow with antisymmetric orography and horizontal diffusion.Further,in order to verify the above analysis,three numerical experiments have been made.The results show that antisymmetric orography can produceantisymmetric motion.Finally,the atmospheric interactions between Northern and Southern Hemispheresare discussed. 相似文献
3.
利用考虑地形和水平扩散作用的正压涡度方程,在线性情况下,给出了描写对称运动和反对称运动(都是对赤道来说的)的方程和它们各自的解析解。分析这些解可以看出,不论对于对称运动或反对称运动,解都由三部份组成:一是与初始流场有关的Rossby波;一是以Rossby波波速传播的,与地形和水平扩散有关的行进波;另一是与地形和水平扩散有关的定常波。但是,如初始时刻运动是对称的,则地面拔海高度和水平扩散系数的反对称分布可以引起反对称运动,从而,引起非对称的运动。在定常情况下,则对称的流场,和地面拔海高度、水平扩散系数的对称分布有关,反对称的流场,和地面拔海高度、水平扩散系数的反对称分布有关。最后,还用数值试验,证明反对称地形可以引起反对称运动;还讨论了南北半球的相互影响的问题。 相似文献
4.
NUMERICAL EXPERIMENTS IN SYMMETRIC AND ASYMMETRIC MOTIONS IN THE BAROTROPIC PRIMITIVE EQUATION MODEL ATMOSPHERE 下载免费PDF全文
下载免费PDF全文 Three numerical experiments have been carried out by using a spectral barotropic primitive equation mo-del.It is found that the results obtained are quite similar to those with the barotropic filtered model.Themain results read as follows:(1)In the case with symmetric orography or without orography,if the motion is symmetric(with re-spect to the equator,the same is true hereafter)at the initial instant,then it would be symmetric afterwards.(2)The antisymmetric orography distribution could cause antisymmetric motion,and the original sym-metric motion might become asymmetric.In order to explain the above results,it has been proved that they are theoretically valid.And it is foundthat if the motion is antisymmetric at the initial instant,then it would become asymmetric.Therefore,nopure antisymmetric motion could be maintained. 相似文献
5.
利用正压原始方程谱模式进行了3个不同情况的数值试验。发现试验结果和在正压过
滤模式的情况很相似,即:
1.在无地形起伏时,如初始时刻运动是对称(来赤道来说,以下同)的,则以后运动将永
远是对称的;
2.在地形为对称时,如初始时刻运动是对称的,则以后运动仍将是对称的;
3.反对称的地形分布可以引起反对称运动,从而,使初始时刻对称的运动变为非对称运
动。
为了解释这些结果,用作者曾在正压过滤模式中用过的方法进行分析,证明它们在理论
上是成立的。还发现:如初始时刻运动是反对称的,则以后将变成非对称的,即纯粹的反对
称运动不可能维持。 Three numerical experiments have been made by using a spectral barotropic primitive equation model. It is found that the results obtained are quite similar to those with the barotropic filtered model. The main results read as follows.1. In the case of flat surface or symmetric orography, if the motion is symmetric (with respect to the equator; the same is true hereinafter) at the initial instant, then it would be symmetric forever.2. Antisymmetric orography distribution could generate antisymm 相似文献
6.
采用p坐标系,利用控制原始方程模式大气中对称运动和反对称运动的方程组,对其物理性质,如对称的和反对称的能量、角动量等的守恒性和它们之间的相互转换,纬圈平均的和扰动的对称和反对称运动之间的能量的相互转换进行了讨论。结果指出:(1)对全球总的绝对角动量的变化有贡献的,只能是因地形而引起的位势高度的对称部分在纬圈方向的差值和耗失力的纬向分量;(2)不同形式能量之间的相互转换除和经典的情况类似外,还有对称能量和反对称能量之间的相互转换,可以制约对称运动和反对称运动的相互影响。 相似文献
7.
PHYSICAL PROPERTIES OF THE SYMMETRIC AND ANTISYMMETRIC MOTIONS AND RELATED ENERGY CONVERSION 下载免费PDF全文
下载免费PDF全文 Liao Dongxian 《Acta Meteorologica Sinica》1991,5(5):551-563
The physical properties of the symmetric and antisymmetric motions,such as the conservation of the ab-solute angular momentum,the mutual conversions between various forms of energy,have been analysed by usingthe sets of equaticns in p-coordinates controlling the motions in the primitive equation model atmosphere.Theresults show that only the symmetric component of zoral geopotential difference caused by orography and thatof the zonal frictional torque,have contribution to the change of the global angular momentum,and that themutual conversions between various forms of energy,in addition to those similar to the results in the classical case,irclude those associated with the symmetric and antisymmetric motions. 相似文献
8.
In this paper,the continuity and thermodynamic equations including moisture forcings were derived.Using these two equations and the basic momentum equation of local Cartesian coordinates,the budget equation of generalized moist potential vorticity(GMPV) was derived.The GMPV equation is a good generalization of the Ertel potential vorticity(PV) and moist potential vorticity(MPV) equations.The GMPV equation is conserved under adiabatic,frictionless,barotropic,or saturated atmospheric conditions,and it is closely associated with the horizontal frontogenesis and stability of the real atmosphere.A real case study indicates that term diabatic heating could be a useful diagnostic tool for heavy rainfall events. 相似文献
9.
An analysis is made of the effects of topography on the summer atmospheric energetics of the Northern Hemisphere in a low-resolution global spectral model. The numerical model is a global, spectral, primitive equation model with five equally spaced sigma levels in the vertical and triangular truncation at wavenumber 10 in the horizontal. The model includes comparatively full physical processes.Each term of the energy budget equations is calculated in four specific latitudinal belts (81.11°S-11.53°S; 11.53°S-11.53°N; 11.53°N-46.24°N; 46.24°N-81.11°N) from a five-year simulation with mountains and a one-year simulation without mountains, respectively. Differences between them are compared and statistically tested. The results show that synoptical scale waves transport available potential energy and kinetic energy to long waves and increase conversion from available potential energy of the zonal flow to eddy’s and from the eddy kinetic energy to the zonal kinetic energy in region 3 (11.53°N-46.24°N) due to mountains; topography intensifies the atmospheric baroclinity in region 3, consequently the baroclinic conversion of atmosphere energy is increased. The seasonal characteristics associated with the summer atmospheric energy source in region 3 are caused by seasonal variation of the solar radiation and the land-ocean contrasts and independent of topographic effects. The mechanism of topographic effects on the increase of long wave kinetic energy is also discussed. 相似文献
10.
利用对称运动和非对称运动的理论结果,如‘对称运动的不变性’,可以推得:如初始时刻运动是对称的,对于绝热无摩擦的谱模式,在时间积分过程中,总有 1.和反对称运动有关的谱系数等于零; 2.全球预报和半球预报在同一半球内处处相同; 3.和赤道对称的任意两个区域,其各自的运动彼此对称。 数值试验也证实了这些结果。 在有外力强迫的情形,如地形(或加热),如其分布是对称的,则在初始运动是对称的情况下,‘对称运动的不变性’仍然成立。但如果地形(或加热)分布是非对称的,则运动的对称性会减小,而变成非对称运动,并出现越赤道气流。这些也经过数值试验加以证实。 利用上述理论结果作为指导,可以用所设计的模式进行试验、分析,从而,确定模式设计是否合理,有关软件是否有误等。 相似文献
11.
An analysis is made of the effects of topography on the summer atmospheric energetics of the Northern Hemisphere in a low-resolution
global spectral model. The numerical mode! is a global, spectral, primitive equation model with five equally spaced sigma
levels in the vertical and triangular truncation at wavenumber 10 in the horizontal. The model includes comparatively full
physical processes.
Each term of the energy budget equations is calculated in four specific latitudinal belts (81.11°S–11.53°S; 11.53°S–11.53°N;
11.53°N–46.24°N; 46.24°N–81.11°N) from a five-year simulation with mountains and a one-year simulation without mountains,
respectively. Differences between them are compared and statistically tested. The results show that synoptical scale waves
transport available potential energy and kinetic energy to long waves and increase conversion from available potential energy
of the zonal flow to eddy's and from the eddy kinetic energy to the zonal kinetic energy in region 3 (11.53°N-46.24°N) due
to mountains; topography intensifies the atmospheric baroclinity in region 3, consequently the baroclinic conversion of atmosphere
energy is increased. The seasonal characteristics associated with the summer atmospheric energy source in region 3 are caused
by seasonal variation of the solar radiation and the land-ocean contrasts and independent of topographic effects. The mechanism
of topographic effects on the increase of long wave kinetic energy is also discussed. 相似文献
12.
热带气旋"黄蜂"动热力特征演变的模拟分析 总被引:9,自引:1,他引:8
以"中国登陆台风试验"项目的目标热带气旋"黄蜂"为对象,用高分辨数值模式成功模拟了其近海加强和登陆减弱的过程,从定量和时间演化角度细致分析了热带气旋(TC)各阶段的动、热力特征,包括对流加热特性、温湿结构、稳定度、涡散度、垂直运动、垂直环流、水平环流等基本动、热力因子的时空结构特征,揭示了该热带气旋的大量结构特点,如对流加热的强盛和非对称性、强热带风暴的无眼结构、低层的东暖西冷结构、涡度的准圆形对称结构、东/西侧环流正/斜压性的差异、低层辐合和上升运动的准周期振荡等等.这些结构特征的揭示对深入细致地研究和认识南海热带气旋的特点和演变机理具有重要学术意义. 相似文献
13.
The Kuroshio extension(KE)exhibits interdecadal variability,oscillating from a stable state to an unstable state.In this paper,ERA-Interim reanalysis data are used to discuss the possible reasons for the asymmetric response of the atmosphere to symmetric sea surface temperature anomaly(SSTA)during periods of differential KE states.The analysis has the following results:the SSTA presents a nearly symmetrical distribution with opposite signs during the KE stable and unstable periods.During the KE stable period,the storm track is located north of 40°N and is significantly enhanced in the northeast Pacific Ocean.The atmospheric response is similar to the West Pacific/North Pacific Oscillation teleconnection(WP/NPO like pattern)and presents a barotropic structure.The inversion results of the potential vorticity equation show that the feedback of transient eddy vorticity manifests a WP/NPO like pattern and presents a barotropic structure,which is the main reason for bringing about the response of the WP/NPO like pattern.The magnitude of the feedbacks of both diabatic heating and transient eddy heating is small,which can offset one another.During the KE unstable period,the main body of the storm track is located to the south of 40°N,and there is no significant response signal in the atmosphere,except near the west coast of North America.Compared with the KE stable period,the asymmetry of response of the transient eddy vorticity is the main reason for the asymmetric response of the atmosphere. 相似文献
14.
水平涡度与夏季风环流变化 总被引:1,自引:0,他引:1
在斜压涡度发展理论的基础上,讨论了大尺度大气运动中水平涡度向垂直涡度转化的情况,并用以刻划夏季风变动。将声坐标中涡度方程的有关项在2坐标中分离出水平涡度向垂直涡度转化的主要项,经尺度分析得出,在对流层中、高层,这些转化项中的水平分量是大尺度大气斜压性涡度发展的主要因子。通过对1998年4—8月的GAME(GEWEX Asian Monsoon Experiment,全球能量和水分循环试验(GEWEX)的子试验:亚洲季风试验,简称GAME)再分析资料进行实际计算发现,转化项在东亚夏季风上升支的600 hPa及以上层次对P坐标垂直涡度的局地变化贡献很大,不能忽略。同时发现水平涡度向垂直涡度的转化对南海季风爆发和江淮梅雨入梅及其发展过程均有指示性意义。南海季风爆发以后,在中国东南部地区,转化项的大小与夏季风的活跃和中断等活动吻合,转化项的变化反映了西太平洋副高在中国大陆的活动规律。 相似文献
15.
本文利用Ekman动量近似研究了斜压性对Ekman层动力学的影响,得到了一些新的结果。大气斜压性对Ekman层的水平风速分布及近地面的风速矢的水平分量夹角有重要的改变作用。斜压边界层顶部的非线性Ekman抽吸(垂直运动)由三个不同的物理因子决定,第一、正压性的地面地转涡度,第二、斜压性作用产生的热成风涡度,第三、正压性的地面地转涡度与斜压性的热成风涡度的非线性相互作用。这些理论结果为边界层的参数化及数值模拟结果的解释提供物理基础。 相似文献
16.
管兆勇 《南京气象学院学报》2000,23(3):313-322
使用NCEP/NCAR40年(1958~1997年)月平均再分析资料,通过动力学论断研究了大气斜压/正压运动动能的变化及其相互转换,分析了亚洲季风变动与这两种动能变化的联系。指出:季风区大气运动动能的组成和变化具有独特的特征。冬季风时期大气斜压运动动能与正压运动动能具有正相关线性关系,斜压运动能向正压运动动能转换;春、秋季无论是东亚还是印度季风区斜压运动动能与正压运动动能之间转换都处于极小值,只是 相似文献
17.
NCEP-NCAR reanalysis data were used to analyze the characteristics and evolution mechanism of convective and symmetric instability before and during a heavy rainfall event that occurred in Beijing on 21 July 2012.Approximately twelve hours before the rainstorm,the atmosphere was mainly dominated by convective instability in the lower level of 900-800 hPa.The strong southwesterly low-level jet conveyed the moist and warm airflow continuously to the area of torrential rain,maintaining and enhancing the unstable energy.When the precipitation occurred,unstable energy was released and the convective instability weakened.Meanwhile,due to the baroclinicity enhancement in the atmosphere,the symmetric instability strengthened,maintaining and promoting the subsequent torrential rain.Deriving the convective instability tendency equation demonstrated that the barotropic component of potential divergence and the advection term played a major role in enhancing the convective instability before the rainstorm.Analysis of the tendency equation of moist potential vorticity showed that the coupled term of vertical vorticity and the baroclinic component of potential divergence was the primary factor influencing the development of symmetric instability during the precipitation.Comparing the effects of these factors on convective instability and symmetric instability showed some correlation. 相似文献
18.
Changes in the normal mode energetics of the general atmospheric circulation are assessed for the northern winter season (DJF) in a warmer climate, using the outputs of four climate models from the Coupled Model Intercomparison Project, Phase 3. The energetics changes are characterized by significant increases in both the zonal mean and eddy components for the barotropic and the deeper baroclinic modes, whereas for the shallower baroclinic modes both the zonal mean and eddy components decrease. Significant increases are predominant in the large-scale eddies, both barotropic and baroclinic, while the opposite is found in eddies of smaller scales. While the generation rate of zonal mean available potential energy has globally increased in the barotropic component, leading to an overall strengthening in the barotropic energetics terms, it has decreased in the baroclinic component, leading to a general weakening in the baroclinic energetics counterpart. These global changes, which indicate a strengthening of the energetics in the upper troposphere and lower stratosphere (UTLS), sustained by enhanced baroclinic eddies of large horizontal scales, and a weakening below, mostly driven by weaker baroclinic eddies of intermediate to small scales, appear together with an increased transfer rate of kinetic energy from the eddies to the zonal mean flow and a significant increase in the barotropic zonal mean kinetic energy. The conversion rates between available potential energy and kinetic energy, C, were further decomposed into the contributions by the rotational (Rossby) and divergent (gravity) components of the circulation field. The eddy component of C is due to the conversion of potential energy of the rotational adjusted mass field into kinetic energy by the work realized in the eddy divergent motion. The zonal mean component of C is accomplished by two terms which nearly cancel each other out. One is related to the Hadley cell and involves the divergent component of both wind and geopotential, while the other is associated to the Ferrel cell and incorporates the divergent wind with the rotationally adjusted mass field. Global magnitude increases were found in the zonal mean components of these two terms for the warmer climate, which could be the result of a strengthening and/or widening of both meridional cells. On the other hand, the results suggest a strengthening of these conversion rates in the UTLS and a weakening below, that is consistent with the rising of the tropopause in response to global warming. 相似文献
19.
把任一气象要素分为对赤道对称和对赤道反对称的两部分,利用Oort等的气候资料进行分析,发现在全年中,许多气象要素,如500和1000百帕纬圈平均的高度、温度和西风等,主要呈对称分布。对称部分的绝对值和其沿经圈分布曲线的起伏,都远远大于其反对称部分的对应值。而且,对称部分的曲线起伏,除1000百帕的西风和高度不太明显外,在1—7月普遍呈减小的趋势。至于反对称部分,其变化趋势则与对称部分相反。为了解释上述现象,还对年平均的非绝热加热、摩擦和地形等进行了分析。发现地面拔海高度的反对称部分最明显。在12—2月和6—8月,净辐射、地面雷诺应力、地面(包括海洋)和大气之间的热交换(包括辐射、感热和潜热)的反对称部分也很明显,有时和对称部分相当,甚至超过;但它们在这两个季节的沿经圈分布的位相是相反的。这看来和上述气象要素中反对称部分的产生,以及对称运动维持及其随季节变化有密切关系。 相似文献
20.
为了研究三维静力适应过程的机理,推导三维静力适应方程组并导出声重力波的频散特征、解析解和能量转换关系以及位涡方程。结果表明,三维静力适应过程实际上就是三维声重力波和重力内波的频散过程,声重力波和重力内波的频率在水平方向上可以区分开来。声重力波的频率随着水平波数和垂直波数的增大而增大。取近轴近似,其解析解在空间上呈螺旋曲面,为大气中热通量和动量从一个区域向另一个区域的输送提供了一种机制,从而为研究大气提供了新的视角。垂直速度在动能与有效势能的转换、有效势能与有效弹性势能的转换中发挥着重要的作用,并且只发生在垂直方向上。在静力适应过程中总能量和位涡是守恒的。适应终态中有效势能比有效弹性势能大一个数量级。 相似文献