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1.
季风涡旋对热带气旋生成影响的理想试验研究 总被引:1,自引:0,他引:1
利用新一代非静力平衡中尺度数值模式WRF_ARW(3.3.1版本)模拟季风涡旋中热带气旋生成的过程,从动力和热力作用两方面分析大尺度季风涡旋对热带气旋生成的影响。结果表明:从动力学角度来看,能提供较大环境场涡度的季风涡旋不利于扰动涡旋快速发展成热带气旋。初始阶段,由于季风涡旋尺度大,垂直涡度径向梯度弱。而垂直涡度径向梯度的强弱可以通过“涡度隔离”效应影响对流单体向涡旋中心的聚集合并过程。随着扰动的组织化,径向入流对涡度的平流作用越来越重要。对流单体相对最大风速半径的位置对热带气旋生成作用明显,当其集中在最大风速半径附近时涡旋容易快速发展。此外,环境场相对涡度与热带气旋的尺度存在显著正相关。初始尺度大的涡旋最终具有较大的外围尺度,其涡度的分布范围也更广。从热力学角度来说,较大的环境场相对湿度有利于热带气旋的生成。虽然较大的环境场湿度能够诱发较强的外围对流,但同时也会使最大风速半径以内存在丰富的对流,后者能够提供充分的内区非绝热加热,降低中心气压,促进涡旋发展。 相似文献
2.
利用NCEP 1°×1° 6h再分析资料、位涡反演和数值试验方法,分离与不同物理过程有关的扰动位涡进行反演诊断.在此基础上移除模式初始场中包含的与不同物理过程有关的扰动位涡反演的平衡场进行敏感性试验.对2006年5月21—22日一次热带扰动系统北上在广东珠江三角洲地区引发的大暴雨天气过程进行了探讨。结果发现:对流层中低层与潜热释放有关的正扰动位涡是影响热带扰动形成、维持及发展的主要因子之一;与潜热释放无关的扰动位涡对副热带高压的形成和维持有重要作用,影响热带扰动系统的移动路径;边界层内的扰动位涡有利于南海热带洋面北上气旋性扰动的发生、发展与维持;中高层扰动位涡对气旋性扰动系统的直接影响很小;下边界扰动位温不利于气旋性扰动系统的形成、维持与发展。数值敏感性试验表明,初始场中包含的与不同物理过程有关的扰动位涡在暴雨数值模拟中有重要作用,它们不同程度地影响热带扰动的强度、活动路径的模拟.并影响暴雨强度和落区;与非绝热物理过程有关的扰动位涡很大程度上影响暴雨强度,而与非绝热物理过程无关的扰动位涡很大程度上决定暴雨落区。 相似文献
3.
非绝热加热对热带气旋非对称结构影响的数值试验 总被引:4,自引:4,他引:4
利用含非绝热加热强迫的正压涡度方程。将非绝热加热作适当的参数化处理。对初始对称 热带气旋作了一系列数值试验,结果表明:不仅β项、平流项在热带气旋非对称结构的形成中有重要作用,而且非绝热加热对热带气旋的非对称结构亦有重要影响,从而验证了非绝热加热是热带气旋非对称结构形成的一种可能机制的结论。 相似文献
4.
The influence of outer-core surface entropy fluxes (SEFs) on tropical cyclone (TC) outer rainband activity is investigated in this study with a fully compressible,nonhydrostatic model.A control simulation and two sensitivity experiments with the outer-core SEF artificially increased and decreased by 20% respectively were conducted to examine the quasi-periodic outer rainband behavior.Larger negative horizontal advection due to the greater radial wind and the positive contribution by asymmetric eddies leads to a longer period of outer-rainband activity in the SEF-enhanced experiment.The well-developed outer rainbands in the control and SEF-reduced simulations significantly limit the TC intensity,whereas such an intensity suppression influence is not pronounced in the SEF-enhanced experiment.As diabatic heating in outer rainbands strengthens the outer-core tangential wind,the quasi-periodic activity of outer rainbands contributes to the quasi-periodic variations of the inner-core size of the TCs. 相似文献
5.
6.
初始涡旋结构对热带气旋强度变化影响的数值研究 总被引:6,自引:6,他引:0
本文利用中尺度WRF模式,通过构造3个位于不同高度上强度相同的初始涡旋暖心中心(分别称为Low试验、Mid试验和High试验),认识暖心垂直结构对热带气旋发展的影响。理想数值试验发现,在积分6 h后在Low试验和Mid试验中最大风速半径开始收缩,眼墙内对流发展,高层暖心发展明显比High试验强,强度增加明显快于High试验,达到快速增强的标准。进一步诊断发现,暖心偏低的试验中初始CAPE值较大,低层风垂直切变较强,有利于眼墙内对流发展,非绝热加热在高层暖心形成过程中起重要作用,最大风速半径收缩比High试验快,热带气旋强度快速增加。本研究清楚表明,数值预报模式中构造初始涡旋的暖心高度对模拟热带气旋的强度发展有重要影响。 相似文献
7.
Boundary-layer wind structure in a landfalling tropical cyclone 总被引:1,自引:0,他引:1
In this study, a slab boundary layer model with a constant depth is used to analyze the boundary-layer wind structure in a landfalling tropical cyclone. Asymmetry is found in both the tangential and radial components of horizontal wind in the tropical cyclone boundary layer at landfall. For a steady tropical cyclone on a straight coastline at landfall, the magnitude of the radial component is greater in the offshoreflow side and the tangential component is greater over the sea, slightly offshore, therefore the greater total wind speed occurs in the offshore-flow side over the sea. The budget analysis suggests that: (1) a greater surface friction over land produces a greater inflow and the nonlinear effect advects the maximum inflow downstream, and (2) a smaller surface friction over the sea makes the decrease of the tangential wind component less than that over land. Moreover, the boundary layer wind structures in a tropical cyclone are related to the locations of the tropical cyclone relative to the coastline due to the different surface frictions. During tropical cyclone landfall, the impact of rough terrain on the cyclone increases, so the magnitude of the radial component of wind speed increases in the offshore-flow side and the tangential component outside the radius of maximum wind speed decreases gradually. 相似文献
8.
雷小途 《热带气象学报(英文版)》1998,4(2):131-140
Using the barotropic volticity equation that contains forcing from diabatic heating with appropriate parameterization. a number of numerical experiments are conducted for the tropical cyclone that is initially symmetric The result shows that the diabatic heating has important effects on the asymmetric structure in addition to the roll of the β term and nonlinear advection term in its formation. It again confirms the conclusion that the diabatic heating is a possible mechanism responsible for such structures in the tropical cyclone. 相似文献
9.
副热带高压对登陆台风等熵面位涡演变影响的数值模拟研究 总被引:3,自引:1,他引:2
选取1997年第11号台风“温妮”为研究个例, 通过中尺度模式MM5模拟再现了该台风登陆后经历初期减弱、 变性及变性后再次发展的演变过程。采用Davis et al.(1996) 提出的片段位涡反演方法, 提取具有副热带高压物理意义的位涡扰动, 采用片段位涡反演的方法, 改变模式积分初始时刻台风东部副热带高压强度, 并引入Ertel等熵面位涡收支方程, 深入分析不同强度的副热带高压环流系统在登陆台风结构演变的过程中等熵面位涡的守恒性, 以及守恒性与非守恒性相对作用的大小。研究表明: 台风北上深入内陆的过程中, 高空槽大值位涡源源不断的输送使得对流层低层西北侧位涡增长, 台风中心上空的辐散形势有利于台风强度的再次增强。由于摩擦和非绝热加热的存在, 对流层位涡局地变化主要决定于位涡的水平平流 (守恒项)、 位涡的垂直平流、 加热的垂直微分 (非守恒项) 的分布。台风经历变性及再增强的过程中, 其影响范围内位涡守恒性经历了先减弱后增强的过程, 非守恒项中位涡的垂直平流能较好地描述对流层中层位涡局地变化趋势, 而加热的垂直微分则在对流层低层和高层表现良好。副高强度的加强使台风加速北上, 加快了台风变性速度, 高层位涡的向下输送明显提前且强度增强, 位涡守恒性的破坏、 重建也相应提前, 位涡垂直平流的整层负值减小, 加热垂直微分对对流层低层位涡增长的正贡献加强, 且持续时间更长。 相似文献
10.
2003年夏季梅雨期一次强气旋发展的位涡诊断分析 总被引:10,自引:2,他引:8
通过位涡诊断和回推轨迹分析, 对2003年夏季梅雨期间一次强江淮气旋的发展过程进行了研究。结果表明: 气旋发展初期, 非绝热加热在气旋的低层发展中起了主要作用, 随后由于高层水平平流的增强, 通过垂直平流使高低层大值位涡耦合在一起, 从而使气旋迅速发展。从中、 高、 低层对位涡柱形成所起的作用来看, 低层主要是非绝热加热, 中层是垂直平流, 而高层主要是水平平流; 从构成气旋的气流来说, 在气旋迅速发展阶段, 低层主要以西南暖湿气流为主, 高层 (500 hPa以上) 主要以沿急流轴下降的高层干冷气流和对流层底层流向气旋东北部并迅速上升的暖湿气流为主。高低层冷暖空气的相互作用主要发生在600 hPa及以上层次, 因凝结加热引起的垂直运动通过垂直平流可能在冷暖气流相互作用和上下大位涡的垂直耦合中发挥了重要作用。 相似文献
11.
H. Yu W. Huang Y. H. Duan J. C. L. Chan P. Y. Chen R. L. Yu 《Meteorology and Atmospheric Physics》2007,97(1-4):189-206
Summary A new typhoon model named as GRAPES_TCM is applied to study the pre-landfall erratic track of Typhoon Haitang (2005), which
hit China twice in mid-July by making landfall in Taiwan and Fujian provinces consecutively. The model is based on the Chinese
Global/Regional Assimilation and PrEdiction System (GRAPES) and put into real-time operational test since 2004. It predicts
almost correctly the pre-landfall loop and sharp turn of Haitang and its asymmetric rainfall distribution.
Haitang’s erratic track is well explained by the potential vorticity (PV) theory on tropical cyclone motion, with the typhoon
center moving toward the area of maximum wave-number 1 (WN1) PV tendency most of the time. Among the terms contributing to
the WN1 PV tendency, the horizontal advection of PV is dominant with the diabatic heating and residual terms also being not
negligible.
A sensitivity experiment is carried out with removal of the Taiwan terrain to determine its importance in the erratic track
of Haitang and it is found that the basic erratic feature of Haitang’s track remians unchanged although it tends to have a
larger loop and a weaker northward turn, which suggests that Taiwan terrain may not be a key factor here.
The sudden change of Haitang’s moving direction is always accompanied by a newly-generated or re-intensified WN1 PV center
in the southern semicircle, which circles around the TC center cyclonically afterwards and weakens in the north or northwestern
part. A phase-lock WN1 PV forcing related to diabatic heating is proposed to be the major contributor, the importance of which
is magnified as it is in phase with the WN1 horizontal advection of PV. The intrusion of mid-level warm and dry air, as well
as the existence of a low-level southwesterly jet, is considered to be the main reasons for such a phase-lock of the diabatic
heating forcing on the PV tendency field that finally results in the erratic track of Haitang. 相似文献
12.
南半球冷空气入侵与热带气旋的形成 总被引:10,自引:0,他引:10
文中采用NCAR/PSU研制的非静力中尺度模式MM 5 ,研究了南半球冷空气入侵在热带气旋形成中的作用。初始场为纬向平均场 ,不含任何扰动 ,但为热带气旋的发生提供了基本条件 ;通过改变设在赤道的南边界条件 ,设计系列数值试验反映南半球不同强度冷空气的入侵。数值试验结果表明 :南半球冷空气侵袭后 ,在菲律宾以东洋面上形成热带气旋 ;没有冷空气入侵时 ,只有扰动产生 ,没有热带气旋形成。在对流不稳定的背景场中 ,即使没有冷空气入侵 ,低层小尺度辐合引起强上升运动 ,产生的非绝热加热 ,在热带洋面上也能形成扰动。但是非绝热加热使得稳定度增加 ,没有低层强辐合的支持 ,对流不能持续 ,扰动不能发展成为热带气旋。南半球冷空气的入侵 ,一方面气温降低 ,使得中低层层结稳定度降低 ;另一方面 ,冷空气形成向北的气压梯度 ,在低纬度产生南风 ,导致低层强辐合。稳定度因子和低层辐合的共同作用 ,驱动深厚的垂直环流 ,产生十分显著的非绝热加热 ,形成了暖心的热带气旋。上述研究结果一定程度上肯定了存有疑义的冷空气学说 相似文献
13.
On the multiple equilibrium of the development of tropical cyclone in nonlinear CISK model 总被引:2,自引:0,他引:2
By using non-static atmosphere equations including basic current, heating force and friction, we discuss the bal-ance amplitude of vertical motion in the conditions of constant heating force, linear and non-linear interaction be-tween large-scale ascending motion and diabatic heating force. In the non-linear condition, the multiple equilibrium feature of the tropical cyclone development is discussed and the reason of the sudden varying of tropical cyclone intensity is studied preliminarily. 相似文献
14.
Utilizing Eliassen’s concepts, the forcing of the isentropic azimuthally-averaged mass-weighted radial-vertical circulation by diabatic heating and torques within an extratropical cyclone and a typhoon was studied through nu-merical simulations based on the linear diagnostic equation derived previously. The structure of the forcing associated with diabatic heating and torques was determined from quasi-Lagrangian diagnostic analyses of actual case studies. The two cyclones studied were the Ohio extratropical cyclone of 25-27 January 1978 and typhoon Nancy of 18-23 September 1979. The Ohio cyclone, which formed over the Gulf Coast and moved through Ohio and eastern Michigan, was one of the most intense storms with blizzard conditions to ever occur in this region. Typhoon Nancy which occurred over the South China Sea during the FGGE year was selected since relatively high quality assimilated data were available. Within the Ohio cyclone, the dominant internal processes forcing the mean circulation with em-bedded relatively strong hydrodynamic stability were the pressure torque associated with baroclinic (asymmetric) structure and the horizontal eddy angular momentum transport associated with the typical S-shaped thermal and wind structures of self-development. Within typhoon Nancy, the dominant internal process forcing the mean circula-tion with embedded weak hydrodynamic stability was the latent heat release. This analysis shows that the simulated azimuthally-averaged mass-weighted radial motions within these two cy?clones agree quite well with the “observed” azimuthally-averaged mass-weighted radial motions. This isentropic nu?merical study also provides insight into the relatively important internal forcing processes and the trade off between forcing and stability within both extratropical and tropical cyclones. 相似文献
15.
Dynamical and Thermal Problems in Vortex Development and Movement. Part I: A PV–Q View 总被引:3,自引:1,他引:2 
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下载免费PDF全文 Based on the Lagrangian change equation of vertical vorticity deduced from the equation of threedimensional Ertel potential vorticity(PV e),the development and movement of vortex are investigated from the view of potential vorticity and diabatic heating(PV-Q).It is demonstrated that the asymmetric distribution in the vortex of the non-uniform diabatic heating in both vertical and horizontal can lead to the vortex’s development and movement.The theoretical results are used to analyze the development and movement of a Tibetan Plateau(TP) vortex(TPV),which appeared over the TP,then slid down and moved eastward in late July 2008,resulting in heavy rainfall in Sichuan Province and along the middle and lower reaches of the Yangtze River.The relative contributions to the vertical vorticity development of the TPV are decomposed into three parts:the diabatic heating,the change in horizontal component of PV e(defined as PV 2),and the change in static stability θ z.The results show that in most cases,diabatic heating plays a leading role,followed by the change in PV 2,while the change of θ z usually has a negative impact in a stable atmosphere when the atmosphere becomes more stable,and has a positive contribution when the atmosphere approaches neutral stratification.The intensification of the TPV from 0600 to 1200 UTC 22 July 2008 is mainly due to the diabatic heating associated with the precipitation on the eastern side of the TPV when it uplifted on the up-slope of the northeastern edge of the Sichuan basin.The vertical gradient of diabatic heating makes positive(negative) PV e generation below(above) the maximum of diabatic heating;the positive PV e generation not only intensifies the low-level vortex but also enhances the vertical extent of the vortex as it uplifts.The change in PV e due to the horizontal gradient of diabatic heating depends on the vertical shear of horizontal wind that passes through the center of diabatic heating.The horizontal gradient of diabatic heating makes positive(negative) PV e generation on the right(left) side of the vertical shear of horizontal wind.The positive PV e generation on the right side of the vertical shear of horizontal wind not only intensifies the local vertical vorticity but also affects direction of movement of the TPV.These diagnostic results are in good agreement with the theoretic results developed from the PV-Q view. 相似文献
16.
Impact of tropical cyclone development on the instability of South Asian High and the summer monsoon onset over Bay of Bengal 总被引:2,自引:0,他引:2
Guoxiong Wu Suling Ren Jianmin Xu Dongxiao Wang Qing Bao Boqi Liu Yimin Liu 《Climate Dynamics》2013,41(9-10):2603-2616
This paper analyzes the evolution of the South Asian High (SAH) during and after the development of tropical cyclone Neoguri over the South China Sea (SCS) in mid-April 2008, the formation of tropical storm Nargis over the Bay of Bengal (BOB) in late April, and the Asian summer monsoon onset, as well as their interrelationships. Numerical sensitivity experiments are conducted to explore the underlying mechanism responsible for these seasonal transitions in 2008. It is demonstrated that strong latent heating related with tropical cyclone activities over the SCS can enhance the development of the SAH aloft and generate zonal asymmetric potential vorticity (PV) forcing, with positive vorticity advection to its east and negative advection to its west. Following the decay of the tropical cyclone, this asymmetric forcing leads to instability development of the SAH, presenting as a slowly westward-propagating Rossby wave accompanied by a westward shift of the high PV advection. A strong upper tropospheric divergence on the southwest of the SAH also shifts westward, while positive PV eddies are shed from the high PV advection and eventually arrives in the southern BOB. Such synoptic patterns provide favorable pumping conditions for local cyclonic vorticity to develop. The latent heating release from the cyclogenesis further intensifies the upper-layer divergence, and the lower and upper circulations become phase locked, leading to the explosive development of the tropical cyclone over the southern BOB. Consequently, a tropical storm is generated and the BOB summer monsoon commences. 相似文献
17.
使用FNL Analysis全球格点资料,对东北太平洋一次强爆发性气旋的特殊性进行了分析,发现气旋对其西北部低压系统的吸收合并是其爆发性发展过程中的典型特征,斜压强迫对其快速发展的作用较弱,与西北太平洋爆发性气旋的发展过程存在显著差异。同时,使用Zwack-Okossi诊断方程,从影响爆发性发展的动力和热力因子方面,对其发展机制作了深入的探讨。研究表明,正涡度平流、暖平流和非绝热加热的共同作用使气旋开始爆发性发展,由潜热释放导致的非绝热加热的贡献最大,非绝热加热是其快速发展的主导因子,其中正涡度平流贡献主要来自于中高层,暖平流的贡献主要来自于中低层和高层,而非绝热加热主要发生在中低层,这为东北太平洋爆发性气旋的发展机制提供了一个新的认识。 相似文献
18.
Dynamic Impact of the Vertical Shear of Gradient Wind on the Tropical Cyclone Boundary Layer Wind Field 下载免费PDF全文
下载免费PDF全文 CAI Ninghao XU Xin SONG Lili BAI Lin MING Jie WANG Yuan 《Acta Meteorologica Sinica》2014,28(1):127-138
This work studies the impact of the vertical shear of gradient wind (VSGW) in the free atmosphere on the tropical cyclone boundary layer (TCBL). A new TCBL model is established, which relies on five- force balance including the pressure gradient force, Coriolis force, centrifugal force, turbulent friction, and inertial deviation force. This model is then employed to idealize tropical cyclones (TCs) produced by DeMaria's model, under different VSGW conditions (non-VSGW, positive VSGW, negative VSGW, and VSGW increase/decrease along the radial direction). The results show that the free-atmosphere VSGW is particularly important to the intensity of TC. For negative VSGW, the total horizontal velocity in the TCBL is somewhat suppressed. However, with the maximum radial inflow displaced upward and outward, the radial velocity notably intensifies. Consequently, the convergence is enhanced throughout the TCBL, giving rise to a stronger vertical pumping at the TCBL top. In contrast, for positive VSGW, the radial inflow is significantly suppressed, even with divergent outflow in the middle-upper TCBL. For varying VSGW along the radial direction, the results indicate that the sign and value of VSGW is more important than its radial distribution, and the negative VSGW induces stronger convergence and Ekman pumping in the TCBL. which favors the formation and intensification of TC. 相似文献
19.
In this study, the dependence of tropical cyclone (TC) development on the inner-core structure of the parent vortex is examined using a pair of idealized numerical simulations. It is found that the radial profile of inner-core relative vorticity may have a great impact on its subsequent development. For a system with a larger inner-core relative vorticity/inertial stability, the conversion ratio of the diabatic heating to kinetic energy is greater. Furthermore, the behavior of the convective vorticity eddies is likely modulated by the system-scale circulation. For a parent vortex with a relatively higher inner-core vorticity and larger negative radial vorticity gradient, convective eddy formation and radially inward propagation is promoted through vorticity segregation. This provides a greater potential for these small-scale convective cells to self-organize into a mesoscale inner-core structure in the TC. In turn, convectively induced diabatic heating that is close to the center, along with higher inertial stability, efficiently enhances system-scale secondary circulation. This study provides a solid basis for further research into how the initial structure of a TC influences storm dynamics and thermodynamics. 相似文献
20.
大气非绝热加热作用的研究进展与展望 总被引:2,自引:0,他引:2
大气非绝热加热与天气系统的发生发展有密切联系,与降水等天气过程密不可分,非绝热加热在大气运动中有着至关重要的作用。对非绝热加热的研究和理解,有助于改进数值预报模式,增强数值天气预报模式的预报能力。本文系统梳理了大气非绝热加热的基本内容,近几十年非绝热加热及其作用的研究成果,主要包括非绝热加热的概念及其表征、非绝热加热的时空分布特征、非绝热加热与季风、天气系统(如西太平洋副热带高压、热带气旋、温带气旋和急流)和降水之间的关系,以及非绝热加热在数值模式中的表征,进而指出有待于进一步研究的方面。 相似文献