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1.
The effects of surface flux parameterizations on tropical cyclone(TC) intensity and structure are investigated using the Advanced Research Weather Research and Forecasting(WRF-ARW) modeling system with high-resolution simulations of Typhoon Morakot(2009).Numerical experiments are designed to simulate Typhoon Morakot(2009) with different formulations of surface exchange coefficients for enthalpy(C_K) and momentum(C_D) transfers,including those from recent observational studies based on in situ aircraft data collected in Atlantic hurricanes.The results show that the simulated intensity and structure are sensitive to C_K and C_D,but the simulated track is not.Consistent with previous studies,the simulated storm intensity is found to be more sensitive to the ratio of C_K/C_D than to C_K or C_D alone.The pressure-wind relationship is also found to be influenced by the exchange coefficients,consistent with recent numerical studies.This paper emphasizes the importance of C_D and C_K on TC structure simulations.The results suggest that C_D and C_K have a large impact on surface wind and flux distributions,boundary layer heights,the warm core,and precipitation.Compared to available observations,the experiment with observed C_D and C_K generally simulated better intensity and structure than the other experiments,especially over the ocean.The reasons for the structural differences among the experiments with different C_D and C_K setups are discussed in the context of TC dynamics and thermodynamics. 相似文献
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MICROPHYSICAL CHARACTERISTICS OF THE RAINDROP SIZE DISTRIBUTION IN TYPHOON MORAKOT (2009) 总被引:3,自引:1,他引:2
Microphysical characteristics of the raindrop size distribution(RSD)in Typhoon Morakot(2009) have been studied through the PARSIVEL disdrometer measurements at one site in Fujian province,China during the passage of the storm from 7 to 10 August 2009.The time evolution of the RSD reveals different segments of the storm.Significant difference was observed in the microphysical characteristics between the outer rainband and the eyewall;the eyewall precipitation had a broader size distribution(a smaller slope) than the outer rainband and eye region.The outer rainband and the eye region produced stratiform rains while the eyewall precipitation was convective or mixed stratiform-convective.The RSD was typically characterized by a single peak distribution and well represented by the gamma distribution.The relations between the shape(μ)and slope(Λ)of the gamma distribution and between the reflectivity(Z)and rainfall rate(R)have been investigated.Based on the NW-Dm relationships,we suggest that the stratiform rain for the outer rainband and the eye region was formed by the melting of graupel or rimed ice particles,which likely originated from the eyewall clouds. 相似文献
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A Simulation Study of the Mesoscale Convective Systems Associated with a Meiyu Frontal Heavy Rain Event 总被引:2,自引:0,他引:2 
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下载免费PDF全文 In this study, evolution of the mesoscale convective systems (MCSs) within a Meiyu front during a particularly heavy rainfall event on 22 June 1999 in East China was simulated by using a nonhydrostatic numerical model ARPS (Advanced Regional Prediction System). Investigations were conducted with emphasis on the impact of the interaction among multi-scale weather systems (MWSs) on the development of MCSs in the Meiyu frontal environment. For this case, the development of MCSs experienced three different stages. (1) The convections associated with MCSs were firstly triggered by the eastward-moving Southwest Vortex (SWV) from the Sichuan Basin, accompanying the intensification of the upper-level jet (ULJ) and the low-level jet (LLJ) that were approaching the Meiyu front. (2) Next, a low-level shear line (LSL) formed, which strengthened and organized the MCSs after the SWV decayed. Meanwhile, the ULJ and LLJ enhanced and produced favorable conditions for the MCSs development. (3) Finally, as the MCSs got intensified, a mesoscale convective vortex (MCV), a mesoscale LLJ and a mesoscale ULJ were established. Then a coupled-development of MWSs was achieved through the vertical frontal circulations, which further enhanced the MCV and resulted in the heavy rainfall. This is a new physical mechanism for the formation of Meiyu heavy rainfall related to the SWV during the warm season in East China. In the three stages of the heavy rainfall, the vertical frontal circulations exhibited distinguished structures and played a dynamic role, and they enhanced the interaction among the MWSs. A further examination on the formation and evolution of the MCV showed that the MCV was mainly caused by the latent heat release of the MCSs, and the positive feedback between the MCSs and MCV was a key characteristic of the scale interaction in this case. 相似文献
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用双多普勒雷达分析华南一次飑线系统的中尺度结构特征 总被引:9,自引:4,他引:5
飑线是中国春、夏季常见的一种天气现象.2007年4月23-24日华南地区的一次强飑线过程,因强度强、持续时间长,给广东部分县市造成巨大的经济损失.利用广州和深圳的新一代多普勒天气雷达的探测资料,采用双多普勒雷达风场反演方法和热力动力反演方法,研究此次飑线内部的三维风场、动力和热力结构.在此基础上,通过质量、动量诊断探讨其维持机制.同时,结合地面、高空常规观测及自动站资料分析系统伴随的环境和地面中尺度特征.结果表明,系统发生于中等强度垂直风切变(0-3 km,18 m/s)和中等强度对流不稳定度的环境中,其移动速度最快达17 m/s,属快速移动的飑线.飑线过境时,地面测站呈现风向突变、风速骤增、气压上升、温度与露点骤降等现象.其成熟期的雷达回波和风场结构与过去观测的热带、副热带快速移动飑线系统特征相似.由前(前方指系统移动方向)向后,降水结构依次为对流区、过渡带和层云区.其中,对流区由多个对流单体组成,对应强回波和上升运动,而单体之间为弱下沉运动.气流特征呈准二维结构,包括系统前方深厚的从前向后气流和系统后部低层的从后向前气流.这两支气流在系统前缘低层辐合形成动力高压,触发新对流单体,是系统长时间维持的主要机制.在对流区倾斜上升气流的下方,存在一凝结潜热释放增暖引起的低压区.另外,在对流系统西侧不断有新对流单体形成,并被平流至系统中,促进对流维持.进一步对对流区的质量和动量通量诊断揭示,垂直于飑线系统的水平动量的垂直输送有逆梯度输送的特性,将增加垂直飑线方向的环境垂直风切变,有利于系统维持.相对的,平行飑线方向的水平动量具有顺梯度输送特征,使该方向上风切变分量有被均滑趋势. 相似文献
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In order to re-examine some trends related to tropical cyclones(TCs) over the western North Pacific since 1949,the unreliable maximum sustained wind(Vmax) recorded in the 1949-1978 TC best-track data from the Shanghai Typhoon Institute was modified based on the wind-pressure relationships(WPRs) in this study. Compared to the WPR scheme based on the cyclostrophic balance,the WPR scheme based on the gradient balance could give a better fit to TCs under higher wind speeds and could introduce smaller estimated errors for TCs locating at higher latitudes as well as TCs landing on the continent.After the Vmax modification based on minimum sea-level pressure and TC center latitude,the revised annual number of category 4-5 typhoons shows no long-term trend,while the potential destructiveness measured by power-dissipation index decreases slightly,and this trend is not significant in the period 1949-2008. 相似文献
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利用多普勒雷达数据分析中国华东地区登陆台风轴对称降水特征 总被引:2,自引:1,他引:1
利用中国新一代多普勒雷达网温州雷达和台湾气象局五分山雷达资料、地面自动站降水资料,分析2004-2007年登陆中国华东地区的6个台风从登陆前18小时至登陆后6小时的降水结构时空变化特征.环状平均回波分析显示,在台风离陆地较远时,轴对称降水径向廓线呈双峰结构,最大降水位于台风眼墙处,降水次大值位于台风外围雨带处.台风强度越强,最大降水越强,且离台风中心的距离也越近.当台风接近登陆时,其内核区降水有增强的趋势,从登陆前6小时至登陆时,各台风内核区平均降水率的增强倍率在1.3-3.2,且外围降水随时间向台风中心收缩,内缩速率随台风强度增强而减慢.台风登陆后,台风眼被降水填塞,强度快速减弱,同时降水持续内缩,内核区总降水逐渐衰减.此外本文还建立了一个登陆前台风轴对称降水径向廓线模型,该模型能定量地描述降水廓线的双峰结构,模拟结果与实际雷达观测降水廓线的的均方根误差最小为0.46 mm/h,最大为5.3 mm/h. 相似文献
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二维多单体雷暴系统中对流单体生成和发展的新机制 总被引:1,自引:0,他引:1
在多单体雷暴系统的发展和演变过程中,系统内新对流单体的生成和发展是系统维持最为重要的因素。文中利用中尺度数值模式,研究了环境风场存在低层反向切变(U_z0)情况下,一种新对流单体的生成和发展机制——处于"亚最优切变态"的多单体雷暴系统的维持和发展机制。与以往处于"最优切变态"条件下新对流单体的生成和发展机制不同,由于环境风场存在低层反向切变,此时密度流产生的水平涡度要大于环境风切变产生的水平涡度,密度流向外扩展较快,使两者处于"亚最优切变态",此时多单体雷暴系统中的新对流单体不再是从密度流前沿的阵风锋前上升气流分离出,而是由发展旺盛的主体对流体在其前部中低层激发的垂直上升运动引起。新生成的对流单体因其前部低层湿空气的流入得到快速发展,而其西侧原有的主体对流体因湿空气的流入被切断而开始减弱、消亡并最终被新对流单体所替代。这种新机制的出现与低层环境风反向切变的强度及地表风速有关。在一定的低层反向风切变条件下,这种新机制可与"最优切变态"机制交替作用:当密度流较强时,多单体雷暴系统中新对流单体的生成主要是以"亚最优切变态"机制为主,且新生成的对流单体强度也较弱;当密度流较弱时,多单体雷暴系统中新对流单体的生成主要以"最优切变态"机制为主,此时阵风锋前上升气流得到快速发展,当发展到一定程度时,新对流单体从阵风锋前上升气流中分离出。 相似文献
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条件不稳定大气中二维小尺度双脊地形上空对流及降水特征 总被引:3,自引:1,他引:2
在条件不稳定大气条件下,二维小尺度双脊钟形地形上空对流触发、传播和降水分布特征主要决定于地形上游基流强度、双脊地形配置形式、地形高度及其山谷宽度。双脊地形在沿基流方向上有两种配置:高脊地形位于上游和低脊地形位于上游。对于高脊地形位于上游的双脊地形,上游高地形将起主导作用,山地上空对流及降水特征与单脊地形类似。对于低脊地形位于上游的双脊地形,上游低地形可明显地改变下游高地形的前方来流,同时,下游高地形也能够对上游低地形背风侧流动产生影响,从而导致出现地形上空复杂的对流传播、降水分布特征。对于低脊地形位于上游的双脊地形,其山谷宽度主要决定了双脊地形与单脊地形之间在对流、降水分布等的差异;当山谷宽度较小时,双脊地形可以近似为一个包络地形,此时地形上空的对流、降水特征与单脊地形类似;当山谷宽度较大时,双脊上空流动相互影响较小,此时双脊地形可以分成两个单脊地形;当山谷宽度在一定范围内,其上空的对流及其降水分布与单脊地形有明显差异。对于低脊地形位于上游、中等山谷宽度的双脊地形上空降水主要呈现4种类型:(1)山谷与低脊迎风坡降水;(2)高脊迎风坡降水;(3)低脊山峰与高脊迎风坡降水;(4)低脊背风侧、双脊山峰准静止降水。 相似文献
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The large-scale and small-scale errors could affect background error covariances for a regional numerical model with the specified grid resolution.Based on the different background error covariances influenced by different scale errors,this study tries to construct a so-called"optimal background error covariances"to consider the interactions among different scale errors.For this purpose,a linear combination of the forecast differences influenced by information of errors at different scales is used to construct the new forecast differences for estimating optimal background error covariances.By adjusting the relative weight of the forecast differences influenced by information of smaller-scale errors,the relative influence of different scale errors on optimal background error covariances can be changed.For a heavy rainfall case,the corresponding optimal background error covariances can be estimated through choosing proper weighting factor for forecast differences influenced by information of smaller-scale errors.The data assimilation and forecast with these optimal covariances show that,the corresponding analyses and forecasts can lead to superior quality,compared with those using covariances that just introduce influences of larger-or smallerscale errors.Due to the interactions among different scale errors included in optimal background error covariances,relevant analysis increments can properly describe weather systems(processes)at different scales,such as dynamic lifting,thermodynamic instability and advection of moisture at large scale,high-level and low-level jet at synoptic scale,and convective systems at mesoscale and small scale,as well as their interactions.As a result,the corresponding forecasts can be improved. 相似文献