台风环流区域内中尺度涡量传播特征的研究

用一个高分辨率f平面直角坐标系的正压准地转模式,实施了10组积分时间为36h的试验,研究了初始位于台风外区的一个中尺度涡旋与台风涡旋的相互作用.结果表明:这种相互作用可以激发一个从外区伸展到内区的较小尺度的涡旋对,以此方式将涡量内传至台风中心附近.同时,中尺度涡旋呈现涡量集中化的特征.涡量内传与涡量集中化共存,使内区涡量增多,导致台风增强.此外,在一定条件下,这种相互作用还可以使涡量带破碎和断裂,形成一系列空间尺度更小的涡块.     

守恒系统中台风强度变化及其可能因子的数值研究

用一个高分辨率的f平面正压涡度方程模式,实施了时间积分为36h的21组试验,研究相邻中尺度涡旋与台风涡旋的相互作用。结果指出:这种相互作用能否导致台风加强,取决于两类因子:一是台风涡旋最大风速的取值以及圆形基流切变的强弱;二是切变基流中的中尺度涡旋的自身条件,包括中尺度涡旋的分布、尺度、强度和结构。台风强度与初始中尺度涡旋的尺度、强度之间存在着非线性的联系。     

引发暴雨天气的中尺度低涡的数值研究

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。     

CHANGES OF TYPHOON INTENSITY AND ITS POSSIBLE INFLUENCING FACTORS IN AN f-PLANE BAROTROPIC QUASIGEOSTROPHIC MODEL

By using an f-plane barotropic quasigeostrophic model with the grid-spacing being 5 km,21 experiments whose integration time is 36 h are performed in this paper in order to investigate interactions between a typhoon vortex and its adjacent mesoscale vortices.Results show that whether the interaction leads to the intensification of the typhoon vortex depends on two kinds of factors:one is the value of the maximum wind speed of the typhoon vortex and the intensity of the shearing of circular basic flow:and the other is the condition of mesoscale vortices in the shearing basic flow,such as the spatial distribution,scale,intensity and structure of mesoscale vortices. There is the nonlinear relation between typhoon intensity and the scale and intensity of initial mesoscale vortices.     

三类物理过程对台风强度影响的研究

文中设计了一个极坐标系的准地转正压模式 ,一个直角坐标系定常台风环流条件下的准地转正压模式和一个直角坐标系非定常台风环流的准地转正压模式 ,其径向或水平格距均为 2km ,以研究三类物理过程对台风强度的影响 ,即沿方位角方向的线性平流 ,沿径向的线性平流以及非线性平流对中尺度涡旋涡量内传和台风强度变化的影响。结果指出 :沿方位角方向的线性平流可导致螺旋状涡带的形成 ;沿径向的线性平流在一定的参数集合可使涡量内传 ,台风略有增强 ;定常台风环流条件下扰动涡量的非线性平流可使内传涡量明显增加 ,台风明显增强 ;非定常台风环流条件下非线性平流的作用具有两重性 ,一方面可使内传涡量增多 ,有利于台风的增强 ,另一方面 ,在涡量内传过程中 ,原先呈同心圆轴对称的台风基流结构受到破坏 ,形成复杂流型 ,这又使台风趋于减弱。最后讨论了这些结果在台风强度预测方面的可能应用。     

A Study on a Heavy Rainfall Event Triggered by an Inverted Typhoon Trough in Shandong Province

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.     

南海台风生成前48 h环流特征及热力与动力条件

利用1979—2019年4—11月中国气象局上海台风研究所热带气旋最佳路径资料和静止卫星红外云图资料,筛选出189例南海台风,结合欧洲中期天气预报中心1°×1°再分析资料,分析南海台风生成前48 h至生成时刻的天气环流和动力、热力条件。结果表明：南海台风生成于热带洋面大范围的高海表温度、高水汽含量和高不稳定层结区,其生成前的主要环境背景环流是赤道辐合带、西南季风或东风波等;台风生成前扰动中心常常处于其北侧风切变小而南侧风切变大的过渡带中,少数扰动中心倾向于风切变小值中心附近,风切变与扰动的发展之间无显著相关;扰动中心一般与垂直涡度中心重合,垂直涡度中心是表征扰动自身强弱的物理量,但垂直涡度自身的大小与未来扰动发展趋势关系不明显,而Okubo-Weiss（OW）指数则对于扰动的发展以及扰动位置确定有较好的指示意义;在扰动发展过程中,扰动中心附近存在一个贯穿整个对流层的位涡柱,低层扰动部分与位涡柱中的中低层位涡相互作用,有利于扰动发展。     

台风最大风速增强的数值研究

用一个高分辨率的正压模式，实施了8组时间积分为36h的试验，分析了中尺度涡旋和台风涡旋的相互作用及其对台风强度变化的影响，讨论了初始中尺度涡旋空间尺度大小与台风强度变化之间的联系。结果表明：在一定的合理的参数条件下，这种相互作用可以使台风切向风速量大值增加，显示出台风增强的现象。     

东移低涡动力学的初步研究

用一个正压原始方程模式实施了六组试验，研究了东移低涡的动力学。结果表明：无论是切变基流与低涡的相互作用，还是涡块与低涡的相互作用，都可引起低涡强度在短暂时段内增强，但整个积分时段内低涡强度的演变仍呈下降趋势。切变基流、低涡和多个涡块的相互作用，可以改变下降的趋势。正相对涡度切变基流中低涡和涡块的合并，是东移低涡强度得以维持和发展的一个直接的原因。     

中尺度涡旋和台风涡旋相互作用的数值研究

用一个高分辨率的正压涡度方程模式，实施了4组积分时间为24h的试验，研究了台风环流区域内中尺度涡旋的不同初始径向位置条件下与台风涡旋的相互作用，结果表明，中尺度涡旋初始径向位置不同，可以引起随后扰动相对涡度场演变特征的改变。     

涡旋Rossby波传播和台风切向风速变化的数值研究

设计了一个高分辨率f平面准地转正压涡度方程半谱模式，用以研究非线性对台风切向风速变化，以及不同初始异常条件下台风环流内涡旋Rossby波传播和台风切向风速变化特征。6类(14组)试验的数值结果表明：非线性使台风切向风速的增强减弱，可能使最大风速半径收缩。初始扰动中心位置对涡旋Rossby波传播和台风切向风速变化的影响明显。扰动中心在最大风速半径附近时，台风最大切向风速增强最多；异常中心在台风外区时，使最大切向风速减小。初始异常尺度(范围)减小对台风最大切向风速变化的影响减弱。双涡分布条件下，台风环流外区的涡旋使内区或近眼壁区对流涡旋对台风最大切向风速的影响减弱。     

台风内部的中尺度波动与多边形眼墙的形成

用小波变换分析了1948～2003年南海夏季风强度指数序列振荡特征,并研究了Lanczos滤波器滤出的不同时间尺度上南海夏季风强度与SODA资料提供的海洋热力条件的关系。结果表明,南海夏季风强度变化存在准4年的年际变化、约9年周期的十年际变化和38年左右周期的年代际变化。年际变化最强,年代际变化最弱。不同尺度上的南海夏季风强度变化与海洋热力条件的显著相关区有很大的地域差异。南海夏季风强度的年际变化主要与近赤道地区的热带海洋变化有关,相关关系呈准2年变化。若前一年秋冬季节的赤道东印度洋、赤道西太平洋出现海温和温跃层深度正异常和赤道西印度洋、赤道中东太平洋出现海温和温跃层深度负异常时,对应于当年的年际尺度上的南海夏季风加强;反之则减弱。南海夏季风强度与后期海温的对应关系为:南海夏季风加强,秋季时,南海周边海区和澳大利亚东部海区海温显著负相关;冬季时,热带西印度洋、赤道中东太平洋和赤道大西洋海温出现显著的正相关。南海夏季风强度的年代变化受PDO的调制。年代际尺度上南海夏季风强度的变化即与全球变暖有关,也与PDO有关。     

EFFECTS OF THREE KINDS OF PHYSICAL PROCESSES ON TYPHOON INTENSITY*

This paper designs three quasi-geostrophic barotropic models with a radial/horizontal grid length being 2 kin,one in the polar coordinates,one on a stationary typhoon circulation condition and another on a non-stationary typhoon circulation condition in the Cartesian coordinates,to investigate the effects of azimuthal and radial linear advections,and nonlinear advection on the inward propagation of mesoscale vorticity and the changes of typhoon intensity.Results show that the azimuthal linear advection may result in the formation of spiral vorticity bands;the radial linear advection in a certain parameter set is able to transfer vorticity inwards,leading to a slight enhancement of typhoon;the nonlinear advection of perturbation vorticity on a stationary typhoon circulation condition may transfer more vorticities inwards,thus resulting in a distinct enhancement of typhoon;and the nonlinear advection on a non-stationary typhoon circulation condition possesses duality,i.e.on the one hand,the advection increases the vorticity of inward propagation,thus favorable to the intensification of typhoon,and on the other hand,in the inward propagation process of vorticity the originally concentric and axisymmetric structure of typhoon basic flow is damaged,and a complex flow pattern forms,which in turn tends to weaken the circulation of typhoon.At last the paper discusses the possible applications of those results in typhoon intensity prediction.     

Diagnostic Analysis of the Quasi-Balanced Flow of a Mesoscale Vortex During the 12 June 2008 Guangxi Rainstorm

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.     

"99.8"山东特大暴雨形成机制的数值模拟分析

利用双重嵌套的非静力数值模式MM5V3,成功地模拟了1999年8月11~12日山东诸城发生的特大暴雨。利用模式输出的高时空分辨率资料,对这次暴雨天气及中尺度低涡的形成机制进行了诊断分析。结果表明,这次特大暴雨是在弱冷空气侵入台风低压环流,热带辐合带北伸的形势下形成的;倾斜涡度发展是特大暴雨及中尺度低涡产生、发展的重要机制,鲁东南有利的地形对中尺度低涡的形成具有重要作用;台风低压倒槽顶部的强辐合作用首先触发上升运动,产生强降水,强降水位于低层气旋性暖式切变最明显的地方;强降水释放的凝结潜热使高层气层增暖,高层辐散加强,引起低层中尺度低涡强烈发展,导致降水增幅。可见,CISK机制是特大暴雨和中尺度低涡加强的另一种机制。     

Relation of the Second Type Thermal Helicity to Precipitation of Landfalling Typhoons: A Case Study of Typhoon Talim

This study utilized the MM5 mesoscale model to simulate the landfalling process of Typhoon Talim. The simulated typhoon track, weather patterns, and rainfall process are consistent with the observation. Using the simulation results, the relation of the second type thermal helicity (H ₂) to rainfall caused by the landfalling typhoon Talim was analyzed. The results show that H ₂ could well indicate the heavy inland rainfall but it did not perform as well as the helicity in predicting rainfall during the beginning stage of the typhoon landfall. In particular, H ₂ was highly correlated with rainfall of Talim at 1-h lead time. For 1–5-h lead time, it also had a higher correlation with rainfall than the helicity did, and thus showing a better potential in forecasting rainfall intensification. Further analyses have shown that when Talim was in the beginning stage of landfall, 1) the 850–200-hPa vertical wind shear around the Talim center was quite small (about 5 m s⁻¹); 2) the highest rainfall was to the right of the Talim track and in the area with a 300-km radius around the Talim center, exhibiting no obvious relation to low-level temperature advection, low-level air convergence, and upper-level divergence; 3) the low-level relative vorticity reflected the rainfall change quite well, which was the main reason why helicity had a better performance than H ₂ in this period. However, after Talim moved inland further, 1) it weakened gradually and was increasingly affected by the northern trough; 2) the vertical wind shear was enhanced as well; 3) the left side of the down vertical wind shear lay in the Lushan and Dabieshan mountain area, which could have contributed to triggering a secondary vertical circulation, helping to produce the heavy rainfall over there; hence, H ₂ showed a better capacity to reflect the rainfall change during this stage.     

登陆台风环流内的一次中尺度强对流过程

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。     

涡旋Rossby波传播的不同特征

用一个柱坐标系涡度正压方程的半谱模式，实施了4组试验，研究了不同初始扰动涡旋分布条件下，涡旋Rossby波的传播特征问题。结果指出：正值、负值相间的沿方向角二波分布的初始场，与只有正值涡旋的初始场相比，其后涡旋Rossby波的传播有明显的差别，即前者向内传播的涡量比后者衰减得快，而且前者是单峰传播，后者是双峰传播。     

一次台风变性并入东北冷涡过程的动力诊断分析

台风北移变性并入东北冷涡是造成东北地区夏季大范围暴雨的主要形式之一, 但其中的热动力结构变化特征及其物理机制尚不清晰。本文利用美国国家环境预报中心(NCEP)的再分析资料对一次台风变性并入东北冷涡过程进行动力诊断分析, 分析结果显示:冷涡冷空气的不断侵入以及台风移动形成的相对冷平流使得台风暖心结构消亡, 其低层低压辐合和高层高压辐散结构消失, 变性并入东北冷涡后气旋整层偏冷, 低层出现冷中心。台风变性并入东北冷涡过程中, 冷涡中心附近高空急流南侧的反气旋切变抑制气旋直接往高空发展, 而急流轴左侧的热动力分布特征有利于垂直涡度的发展, 变性后的气旋环流向冷涡的移近有利于急流轴维持倾斜, 从而促进气旋向高空冷涡倾斜发展。同时, 冷空气在气旋低层附近堆积导致等假相当位温线发生倾斜, 造成垂直涡度在气旋中层倾斜发展。台风变性并入东北冷涡后, 高空冷涡槽底的正垂直涡度平流促进气旋由中层直接向高层发展, 而高空冷涡槽底急流促进正垂直涡度平流的维持。气旋高空环流的发展反过来削弱了东北冷涡的高层环流, 导致高空冷涡中心出现北撤。     

A study of the effect of topography on the merging of vortices

Eight sets of numerical experiments are performed in 48 hours of integtation by using a barotropic primitive equation model with a topographic term so as to investigate the effect of topography on the merging of vortices. It is pointed out that the introduction of topography may change the track of vortices,and it causes the low vortices and vorticity lumps to be detained on the southeast side of the topography,thus creating a favorable condition for the merging of the low vortex and vorticity lumps. It is also shown that the effect of topography may cause double mergers of vortices in a horizontally shearing basic flow,and it can strengthen the low vortex remarkably.