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861.
2010年8月大气环流和天气分析 总被引:2,自引:0,他引:2
2010年8月大气环流主要特征如下:极涡呈单极型,中心略偏于东半球。北半球高纬度环流呈4波型分布,欧洲西北部、新地岛附近为低于-40 gpm负距平所控制。西北太平洋副热带高压面积较常年同期偏大,强度显著偏强,位置异常偏西。2010年8月,全国平均气温为21.4℃,比常年同期(20.3℃)偏高1.1℃。全国平均降水量为108.1 mm,比常年同期(102.6 mm)偏多5.5 mm。月内出现了14次降水过程,共有5个热带风暴生成,其中1008号热带风暴南川在福建登陆。江淮、江南、华南北部、重庆、四川东部及新疆南部等地高温日数异常偏多。 相似文献
862.
FY2卫星云图分析系统在热带气旋北冕过程中的应用 总被引:1,自引:0,他引:1
利用FY2卫星云图分析系统的各项分析功能,结合常规观测资料对热带气旋北冕的天气形势、云图演变以及路径变化、风雨情况等进行了分析。结果表明,副热带高压摆动,中纬度西风小槽东移,低层西南气流加强和减弱是"北冕"出现两次北抬和一次南折的直接原因;对流云团的发展和减弱对应低层西南气流的加强和减弱;强降水与云顶亮温的最低值中心及强度密切相关,而云团面积和云顶亮温与强降水也有很好的对应关系,其中发展的云系是强降水发生的信号。FY2卫星云图分析系统较好地分析了"北冕"整个过程的变化特点,对于短时临近预报有较好的辅助作用。 相似文献
863.
864.
The strong heavy rainfall on 3-5 July 2003 causing the severe flooding in Huaihe River basin (HRB), China is studied. It is noted that there are sometimes mesoscale convective vortex (MCV) in East Asia during the mei-yu season. Simulation results from the ARPS (Advanced Regional Prediction) data analysis system (ADAS) and WRF model were used to study the development of the mesoscale convective system (MCS) and mesoscale convective vortex (MCV). It is confirmed that the MCV formed during the development of a... 相似文献
865.
By using WRF mesoscale model, this paper carries out a numerical simulation and diagnostic
analysis of the structural characteristics of the asymmetric spiral rain bands around the landing of Typhoon
Haitang during the period of July 19 to 20, 2005. The result indicated that the two rainbands associated
with the precipitation centre was mainly located northeast of the typhoon centre. The movement and
intensity of the southern rainband corresponded well with the 850-hPa positive vorticity band from 0200 to
1800 UTC July 19, 2005. Under the effect of cyclonic circulation, the positive vorticity band at 850 hPa
connected with a southern rain band, leading to the intensification of rainfall in the southern centre of the
precipitation. The southward rainband gradually moved toward and then merges with the northward one,
strengthening the rainfall in the northern centre of the precipitation. Besides, the relationship between the
heavy rainfall and the divergence field of vertical shear wind in the high altitude is analyzed. Finally, the
relationship is revealed between the development of the vertical component of convective vorticity vector
and the rainfall near the two centres of precipitation in the low altitude. 相似文献
866.
Tropical Cyclone Cloud Image Segmentation by the B-Spline Histogram with Multi-Scale Transforms
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An efficient tropical cyclone(TC) cloud image segmentation method is proposed by combining the curvelet transform,the cubic B-Spline curve,and the continuous wavelet transform.In order to enhance the global and local contrast of the original TC cloud image,a second-generation discrete curvelet transform is implemented for the original TC cloud image.Based on our prior work,the low frequency components are enhanced by using an incomplete Beta transform and the genetic algorithm in the curvelet domain. The... 相似文献
867.
Potential vorticity (PV) has been served as a powerful and useful dynamic tracer for the understanding of the large-scale dynamics and synoptic variations in the atmosphere and oceans. Significant progress has been made on the application of PV.
In recent decades there has been a substantial amount of work done on PV in a general moist atmosphere. In this paper PV and the generalized moist potential vorticity (GMPV) and their application in the tropical cyclones and mesoscale meteorological field are reviewed. The GMPV is derived for a real atmosphere (neither totally dry nor saturated) by introducing a generalized potential temperature instead of the potential temperature or equivalent potential temperature. Such a generalization can depict the moist effect on PV anomaly in the non-uniformly saturated atmosphere. A new convective vorticity vector (CVV) is introduced in connection with GMPV in order to diagnose the development of tropical deep convections. 相似文献
868.
台风榴莲(2001)在季风槽中生成的机制探讨 总被引:2,自引:0,他引:2
利用NCEP 1°×1°分析资料、TMI海温资料、卫星云图资料对季风槽中南海台风榴莲(2001)生成机制进行了分析,揭示了大尺度环境流场、温暖洋面、中尺度对流活动对热带气旋(TC)生成的控制作用.结果表明,水平风速垂直切变的演变在一定程度上指示着TC在暖湿洋面上生成的时间,水平风速垂直切变由强向弱转变,在TC发生前18小时迅速减小到10 m/s,随后在10 m/s以下维持少变,垂直切变的变化主要反映了对流层高层环流形势的演变;在对流层中低层,季风槽的形成和加强对TC的生成有重要作用,由于热带温暖洋面作用,季风槽首先表现出有利于单体对流和带状对流发生发展的条件性对流不稳定特征,随着季风槽的加强,季风槽进一步表现出有利于中尺度扰动发生发展的正压不稳定特征;季风槽槽线南侧的低空急流的经向分布很宽广,由105°E越赤道气流和中南半岛偏西气流(其源头是索马里越赤道低空急流)汇合而成,急流的加强活动具有经向差异,由于边界层高θ_e空气辐合抬升产生两条经向距离约300 km的显著带状对流云系,槽线南侧风速分布的经向差异导致两条带状云系发生追赶,并逐步在季风槽底部槽线附近合并加强为MCC,进而导致中尺度涡旋(MCV)的产生并最终发展成为TC.分析结果还表明,为深对供应丰富对流有效位能的主要是来自台风发生区域本地南海暖洋面的地面热通量,南海暖洋面对TC生成有重要贡献.台风榴莲的生成是一个多尺度相互作用过程,主要包括涡旋对流热塔、与带状对流云系伴随的涡度带的升尺度,涡度带合并成长为MCV,以及大尺度条件对TC在季风槽中生成的时间及地点的控制作用等. 相似文献
869.
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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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
870.