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1.
Tian Yongxiang 《Acta Meteorologica Sinica》1995,9(3):338-348
The tropical cyclone motion is numerically simulated with a quasi-geostrophic baroclinic model.The flow field of a tropical cyclone is decomposed into its axisymmetric and asymmetric components.The relation between the ventilation flow vector and the motion vector of the tropical cyclone is investigated.The results of numerical experiments indicate:(1) There are both large-scale beta gyres and small-scale gyres in the asyrnmetric flow field.(2) The interaction between small-scale gyres and large-scale beta gyres leads to the oscillation of translation speed and translation direction for the tropical cyclone.(3) There are the large deviations between the ventilation flow vector calculated by means of Fiorino and Elsberry's method and the motion vector of tropical cyclone.(4) The ventilation flow vector computed using the improved method closely correlates with the motion vector of the tropical cyclone. 相似文献
2.
斜压涡旋中的通风气流与热带气旋移动的关系 总被引:16,自引:4,他引:16
应用准地转斜压模式数值模拟了热带气旋的移动。将热带气旋的流场分解为轴对称分量和非对称分量,研究非对称流场中的通风气流矢量与热带气旋移动矢量的关系。数值试验结果表明:(1)在热带气旋的非对称流场中,不但有大尺度β涡旋,而且还有小尺度涡旋。(2)小尺度涡旋与大尺度β涡旋之间的相互作用导致热带气旋移向的摆动和移速的振荡。(3)应用Fiorino和Elsberry的方法计算的通风气流矢量与热带气旋移动矢量有很大偏差。(4)应用改进的方法计算的通风气流矢量与热带气旋移动矢量相关密切。 相似文献
3.
The dynamics of tropical cyclone is investigated in a nondivergent barotropic model with no basic flow. The effect of nonlinear term on the movement and development of tropical cyclone is emphatically demonstrated. The advection of asymmetric vorticity by the symmetric flow(AAVS) produces the small-scale gyres(SSGs). The SSGs counterclockwise rotate around the tropical cyclone center. The interaction of SSGs with the large-scale beta gyres(LSBGs) leads to the oscillation in translation speed and vacillation in translation direction for tropical cyclone. The advection of symmetric vorticity by the asymmetric flow(ASVA) steers the symmetric circulation of tropical cyclone. The ventilation flow vector determined by the asymmetric flow is close correlated with the motion vector of tropical cyclone. The nonlinear advection of relative vorticity is an order of magnitude greater than the linear advection of planetary vorticity, However, the asymmetric circulation created by the planetary vorticity advection provides a background condition for anomalous motions of the tropical cyclone. The combination of the linear and nonlinear effects results in accelerated, decelerated, changing direction and/or counterclockwise looping motions of the tropical cyclone. 相似文献
4.
The dynamics of tropical cyclone is investigated in a nondivergent barotropic model with nobasic flow. The effect of nonlinear term on the movement and development of tropical cyclone isemphatically demonstrated. The advection of asymmetric vorticity by the symmetric flow (AAVS)produces the small-scale gyres (SSGs). The SSGs counterclockwise rotate around the tropicalcyclone center. The interaction of SSGs with the large-scale beta gyres (LSBGs) leads to theoscillation in translation speed and vacillation in translation direction for tropical cyclone. Theadvection of symmetric vorticity by the asymmetric flow (ASVA) steers the symmetric circulationof tropical cyclone. The ventilation flow vector determined by the asymmetric flow is closecorrelated with the motion vector of tropical cyclone. The nonlinear advection of relative vorticityis an order of magnitude greater than the linear advection of planetary vorticity, However, theasymmetric circulation created by the planetary vorticity advection provides a background conditionfor anomalous motions of the tropical cyclone. The combination of the linear and nonlinear effectsresults in accelerated, decelerated, changing direction and/or counterclockwise looping motions ofthe tropical cyclone. 相似文献
5.
非对称环流的细致结构与台风路径的摆动 总被引:3,自引:1,他引:3
田永祥 《南京气象学院学报》1994,17(4):399-404
应用准地转三层斜压模式数值模拟热带气旋的移动,详细分析热带气旋非对称环流的三度空间结构及其与热带气旋移动的关系。结果表明:非线性涡度平流与线性β项相结合不但可以产生大尺度β涡旋对,而且还可产生小尺度涡旋对;这两种不同尺度的非对称涡旋不断相互作用,导致热带旋移速的振荡和移向的摆动。 相似文献
6.
β涡旋的垂直结构及其对热带气旋移动的影响 总被引:3,自引:1,他引:3
应用准地转斜压模式数值模拟热带气旋的移动,分析大尺度β涡旋的水平和垂直结构及其对热带气旋移动的。研究结果表明,两β涡旋之间的准均匀流(通风气流)仍然与热带气旋的运动相关。 相似文献
7.
双热带气旋相互作用的研究 总被引:7,自引:1,他引:6
采用无基本气流的无辐散正压模式模拟了双热带气旋的运动。应用非对称理论研究了双热带气旋的相互作用。双热带气旋中的每个热带气旋主要由通过其中心的非对称气流(即通风气流)作用而移动。这股非对称气流是由其自身的线性和非线性效应产生的非对称涡旋与其配对热带气旋形成的非对称涡旋相叠加而引起的。 相似文献
8.
EFFECT OF THE LINEAR BETA TERM ON MOVEMENT AND DEVELOPMENT OF TROPICAL CYCLONE 总被引:2,自引:0,他引:2 
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下载免费PDF全文 The dynamics of tropical cyclone is investigated in a nondivergent,barotropic model with nobasic flow.The effect of linear beta term on the movement and development of tropical cyclone isemphatically demonstrated.The streamfunction tendency due to the symmetric component of linearbeta term appears in a dipole-like pattern with an east-west symmetry,which maintains andintensifies the large-scale beta gyres and causes the tropical cyclone to have a westerly movingcomponent.The streamfunction tendency due to the asymmetric component of linear beta termarises in an ellipse pattern with a north-south major axis,which weakens the tropical cyclone.Thestreamfunction tendency due to the asymmetric component of linear beta term and the intensity oflarge-scale cyclonic beta gyre synchronously vary in a fluctuating manner with time. 相似文献
9.
The dynamics of tropical cyclone is investigated in a nondivergent,barotropic model with no basic flow.The effect of linear beta term on the movement and development of tropical cyclone is emphatically demonstrated.The streamfunction tendency due to the symmetric component of linear beta term appears in a dipole-like pattern with an east-west symmetry,which maintains and intensifies the large-scale beta gyres and causes the tropical cyclone to have a westerly moving component.The streamfunction tendency due to the asymmetric component of linear beta term arises in an ellipse pattern with a north-south major axis,which weakens the tropical cyclone.The streamfunction tendency due to the asymmetric component of linear beta term and the intensity of large-scale cyclonic beta gyre synchronously vary in a fluctuating manner with time. 相似文献
10.
A tropical cyclone is a kind of violent weather system that takes place in warmer tropical oceans
and spins rapidly around its center and at the same time moves along surrounding flows. It is generally
recognized that the large-scale circulation plays a major role in determining the movement of tropical
cyclones and the effects of steering flows are the highest priority in the forecasting of tropical cyclone
motion and track. This article adopts a new method to derive the steering flow and select a typical
swerving track case (typhoon Dan, coded 9914) to illustrate the validity of the method. The general
approach is to modify the vorticity, geostropical vorticity and divergence, investigate the change in the
non-divergent stream function, geoptential and velocity potential, respectively, and compute a modified
velocity field to determine the steering flow. Unlike other methods in regular use such as weighted average
of wind fields or geopoential height, this method has the least adverse effects on the environmental field
and could derive a proper steering flow which fits well with storm motion. Combined with other internal
and external forcings, this method could have wide application in the prediction of tropical cyclone track. 相似文献
11.
台湾岛地形诱生次级环流系统对热带气旋异常运动的影响机制 总被引:19,自引:4,他引:15
对经过中国台湾岛和海南岛、吕宋岛、日本诸岛以及朝鲜半岛的热带气旋在过岛前后的运动、结构和强度的时空变化进行了统计诊断分析。研究结果表明,台湾岛附近热带气旋运动左偏(定义为偏于以前路径的左侧)机率最大,且台湾岛周围是产生诱生低压的高频区。采用理想东、西风环境场作为数值模拟背景场,数值研究了岛屿地形强迫与台湾附近的环境流场的相互作用及其对热带气旋运动偏转的影响,提出了岛屿地形强迫、背景场和热带气旋涡旋三者相互作用对热带气旋路径突然转折影响的观点,即台湾地形有利于环境场中诱生出一对偏差偶极涡,这对诱生偏差偶极涡将导致逼近岛屿的热带气旋产生运动方向的突然偏折,且在不同基本气流条件下,岛屿地形对热带气旋运动可能产生显著不同的影响。 相似文献
12.
相同强度双台风相互作用的物理机制 总被引:2,自引:1,他引:1
在无基本气流的假定下,应用无辐数正压模式研究双台风相互作用的物理机制。台风A位于观风B以西,两台风相距60km,且具有相同的强度。在台风A(台风B)的非对称流场中,由台风A(台风B)的线性β效应产生的非对称涡旋的方位相位与由台风B(台风A)形成的非对称涡旋方位相位相反(相同)。因此,台风A(台风B)的大尺度非对称涡旋较弱(较强)。小尺度涡旋逆时针旋转导致台风A逆时将打转。稳定的偏南非对称气流使台风 相似文献
13.
VerticalStructureofBetaGyresandItsEffectonTropicalCycloneMotionTianYongxiang(田永祥)andLuoZhexian(罗哲贤)(NamingInstituteofMeteorol... 相似文献
14.
简要讨论了3个问题:(1)热带气旋移动与大尺度波动流型演变两者可预报性的差别。(2)热带气旋移动可预报性问题的两类方法。(3)近几年来热带气旋移动可预报性研究的若干结果。 相似文献
15.
云迹风资料在热带气旋移向预报中的应用 总被引:9,自引:0,他引:9
利用云迹风并结合实测风,从涡度方程出发,对1998年南海和西太平洋的几个热带气候进行诊断计算。结果反映,涡度局地变率e↓ζ/et对热带气旋移动有指示意义,它既可批示热带气旋正常路径,在引导气流不明显的情况下,也能对气旋的转折路径有较明显的反映,气旋常朝涡度局地变率最在的方向移动。当热带气旋周围有数个e↓ζ/et中心时写和提交 矢量合成法确定了气旋的最大可能移动方向。此外,玷如引导气流一样,热带气旋 相似文献
16.
钟元 《热带气象学报(英文版)》1997,3(2):208-214
As shown in a statistical analysis of the relationship between environmental fields at varied timeand tropical cyclone motion, the forecasting ability of the initisl environmental field predictors for tropical cyclone motion decreases with the increase of valid time period of forecast;it is higher with these predictors at a fUture time than at an initial time. The work also indicates that for the tropical cyclone motion over a given period of valid forecast, better predictors appear at times mostly differing from thevalid periods; for periods at 48-120 h the environmental predictors at 48-72 h are more capable of forecasting. With statistical interpretation of NWP products, a predictive model for tropical cyclone motionis superior in performance over a statistical forecasting model that employes predictors of the initial field in the basic framework. The concluding remarks can be used as reference in the construction of an objective prediction model for tropical cyclone motion. 相似文献
17.
Based on NCEP/CFSR 0.5° reanalysis data and the best track data from the Japan Tokyo Typhoon Center,composite and comparative analyses demonstrate the asymmetrical structures of the temperature and humidity in tropical cyclones over the Western North Pacific and the South China Sea from 1979 to 2010.The results are shown as follows.(1) With intensifying tropical cyclones,the flow field tends to become gradually more axisymmetric;however,the asymmetry of the specific humidity in the outer regions is more obvious.(2) In general,tropical cyclones have a non-uniform,vertical, "double warm-core" structure.The "warm-cores" in the lower level of weak tropical cyclones and in the higher level of strong tropical cyclones are the stronger of the two.(3) The distribution area of a "warm-core" is enhanced with cyclone intensification and tends to become more axisymmetric.At 200 hPa,the "warm-core" of a weak cyclone has a weak anticyclone in the center,whereas that of a strong cyclone has a weak cyclone in the center.(4)The "wet-core" of a tropical cyclone is primarily located in the lower level(700-850 hPa).With the cyclone's intensification,the intensity of the "wet-core" increases and the scope of the 0.8 g kg~(-1) specific humidity anomaly tends to expand to higher levels.(5) With the cyclone's deepening,the pseudo-equivalent potential temperature at different levels in different regions increases.In addition,the largest warming rates at each intensity level in the different regions occur in the core area,followed in turn by the envelope and outer areas. 相似文献
18.
大尺度环境场对热带气旋影响的动力分析 总被引:15,自引:3,他引:15
文中基于正压大气运动的基本方程组 ,把大气运动场分解为大尺度环境场和热带气旋环流 ,采用动力分析的方法 ,分析了有 /无大尺度环境场作用的热带气旋运动特征。结果表明 :无环境场时 ,热带气旋的运动遵循位涡守恒原理、热带气旋的定常运动满足相当地转风平衡关系 (f 平面近似 ) ,其等位涡线和等压能线均与流线重合 ;有环境场时 ,热带气旋的运动不再遵循位涡守恒原理、其定常运动的等位涡线和等压能线也均与流线不再重合 ,但热带气旋的定常运动满足准相当地转风平衡关系 (f 平面近似 )、等相当压能线与流线重合。最后还能过建立有 /无大尺度环境场作用的热带气旋强度变化及移动速度的方程式 ,定性地分析了大尺度环境场对热带气旋强度变化及移动的影响。 相似文献
19.
Idealized Numerical Simulations of Tropical Cyclone Formation Associated with Monsoon Gyres简 总被引:1,自引:0,他引:1
Monsoon gyres have been identified as one of the important large-scale circulation patterns associated with tropical cyclone (TC) formation in the western North Pacific.A recent observational analysis indicated that most TCs form near the center of monsoon gyres or at the northeast end of the enhanced low-level southwesterly flows on the southeast-east periphery of monsoon gyres.In the present reported study,idealized numerical experiments were conducted to examine the tropical cyclogenesis associated with Rossby wave energy dispersion with an initial idealized monsoon gyre.The numerical simulations showed that the development of the low-level enhanced southwesterly flows on the southeasteast periphery of monsoon gyres can be induced by Rossby wave energy dispersion.Mesoscale convective systems emerged from the northeast end of the enhanced southwesterly flows with mid-level maximum relative vorticity.The simulated TC formed in the northeast of the monsoon gyre and moved westward towards the center of the monsoon gyre.The numerical experiment with a relatively smaller sized initial monsoon gyre showed the TC forming near the center of the initial monsoon gyre.The results of the present study suggest that Rossby wave energy dispersion can play an important role in TC formation in the presence of monsoon gyres. 相似文献
20.
XU Yamei 《Acta Meteorologica Sinica》2013,27(4):486-501
The mechanism for the maintenance of Tropical Cyclone Bill (1988) after landfall is investigated through a numerical simulation. The role of the large-scale environmental flow is examined using a scale separation technique, which isolates the tropical cyclone from the environmental flow. The results show that Bill was embedded in a deep easterly-southeasterly environmental flow to the north-northeast of a large-scale depression and to the southwest of the western Pacific subtropical high. The depression had a quasi-barotropic structure in the mid-lower troposphere and propagated northwestward with a speed similar to the northwestward movement of Bill. The moisture budgets associated with both the large-scale and the tropical cyclone scale motions indicate that persistent low-level easterly-southeasterly flow transported moisture into the inner core of the tropical cyclone. The low-level circulation of the tropical cyclone transported moisture into the eyewall to support eyewall convection, providing sufficient latent heating to counteract energy loss due to surface friction and causing the storm to weaken relatively slowly after landfall. Warming and a westward extension of the upper-level easterly flow led to westward propagation of the environmental flow in the mid-lower troposphere. As a result, Bill was persistently embedded in an environment of deep easterly flow with high humidity, weak vertical wind shear, convergence in the lower troposphere, and divergence in the upper troposphere. These conditions are favorable for both significant intensification prior to landfall and maintenance of the tropical cyclone after landfall. 相似文献