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1.
Influences of Different PBL Schemes on Secondary Eyewall Formation and Eyewall Replacement Cycle in Simulated Typhoon Sinlaku (2008) 
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下载免费PDF全文 The effects of different planetary boundary layer (PBL) processes on the secondary eyewall formation (SEF) and eyewall replacement cycle (ERC) in Typhoon Sinlaku (2008) are investigated by using the Weather Research and Forecasting (WRF) model with six different PBL schemes. The SEF and ERC have been successfully simulated with all the six PBL schemes and the mechanism for the SEF and ERC proposed in our previous study has been reconfirmed. It is demonstrated that both the intensification of the storm and the inward-moving outer spiral rainband contribute to the SEF. After the SEF, the associated diabatic heating enhances the secondary eyewall further, and the transfer of moist air from outer region to the primary eyewall is cut off by the secondary eyewall. In such a way, the primary eyewall dies and an ERC completes. It is found that some simulated features of the SEF and ERC, such as the time and location of the SEF and duration of the ERC, do vary from one simulation to another. In order to describe the features of the SEF and ERC quantitatively, a concentric eyewall index (CEI) is defined and a threshold of the CEI is suggested to determine the onset of the secondary eyewall. The differences in the simulated SEF and ERC are discussed and some possible causes are suggested. In addition, based on the CEI threshold and the conservation law of angular momentum, a formula to predict the location of SEF is also proposed and applied to all the six simulations. The success and failure of the formula are then discussed. 相似文献
2.
Based on the data(including radius of maximum winds) from the JTWC(Joint Typhoon Warning Center),the tropical cyclones(TCs) radii of the outermost closed isobar, TCs best tracks from Shanghai Typhoon Institute and the Black Body Temperature(TBB) of the Japanese geostationary meteorological satellite M1 TR IR1, and combining13 tropical cyclones which landed in China again after visiting the island of Taiwan during the period from 2001 to2010, we analyzed the relationship between the number of convective cores within TC circulation and the intensity of TC with the method of convective-stratiform technique(CST) and statistical and composite analysis. The results are shown as follows:(1) The number of convective cores in the entire TC circulation is well corresponding with the outer spiral rainbands and the density of convective cores in the inner core area increases(decreases) generally with increasing(decreasing) TC intensity. At the same time, the number of convective cores within the outer spiral rainbands is more than that within the inner core and does not change much with the TC intensity. However, the density of convective cores within the outer spiral rainbands is lower than that within the inner core.(2) The relationship described above is sensitive to landing location to some extent but not sensitive to the structure of TC.(3) The average value of TBB in the inner core area increases(decreases) generally with increasing(decreasing) of TC intensity, which is also sensitive to landing situation to some extent. At the same time, the average value of TBB within the outer spiral rainbands is close to that within the entire TC circulation, and both of them are more than that within the inner core. However, they do not reflect TC intensity change significantly.(4) The results of statistical composite based on convective cores and TBB are complementary with each other, so a combination of both can reflect the relationship between TC rainbands and TC intensity much better. 相似文献
3.
利用CIMSS微波卫星产品和多普勒天气雷达资料,分析超强台风利奇马(1909)的长时间双眼墙特征,并采用集合卡尔曼滤波方法同化雷达径向风资料,诊断利奇马双眼墙的三维结构演变特征。结果表明:在双眼墙演变过程初期,受强垂直风切变和中高层干空气入侵的影响,外眼墙对流减弱,呈非对称特征。Sawyer-Eliassen方程诊断结果显示:台风利奇马(1909)内、外眼墙次级环流之间的相互作用不明显,不同于发生眼墙替换过程的台风,其外眼墙处非绝热加热引起的下沉运动发生在内眼的眼心,内眼墙的上升运动并未受到外眼墙次级环流抑制。另外,在强垂直风切变条件下,非对称的外眼墙不能持续增强收缩并取代内眼墙,因此双眼墙结构得以长时间维持。可见,台风利奇马(1909)外眼墙的非对称结构和特殊的次级环流分布是其双眼墙能够长期维持的重要原因。 相似文献
4.
Impact of Cloud Microphysical Processes on the Simulation of Typhoon Rananim near Shore. Part II: Typhoon Intensity and Track 下载免费PDF全文
下载免费PDF全文 The impact of cloud microphysical processes on the simulated intensity and track of Typhoon Rananim is discussed and analyzed
in the second part of this study. The results indicate that when the cooling effect due to evaporation of rain water is excluded,
the simulated 36-h maximum surface wind speed of Typhoon Rananim is about 7 m s−1 greater than that from all other experiments; however, the typhoon landfall location has the biggest bias of about 150 km
against the control experiment. The simulated strong outer rainbands and the vertical shear of the environmental flow are
unfavorable for the deepening and maintenance of the typhoon and result in its intensity loss near the landfall. It is the
cloud microphysical processes that strengthen and create the outer spiral rainbands, which then increase the local convergence
away from the typhoon center and prevent more moisture and energy transport to the inner core of the typhoon. The developed
outer rainbands are supposed to bring dry and cold air mass from the middle troposphere to the planetary boundary layer (PBL).
The other branch of the cold airflow comes from the evaporation of rain water itself in the PBL while the droplets are falling.
Thus, the cut-off of the warm and moist air to the inner core and the invasion of cold and dry air to the eyewall region are
expected to bring about the intensity reduction of the modeled typhoon. Therefore, the deepening and maintenance of Typhoon
Rananim during its landing are better simulated through the reduction of these two kinds of model errors. 相似文献
5.
The impact of cloud microphysical processes on the simulated intensity and track of Typhoon Rananim is discussed and analyzed in the second part of this study.The results indicate that when the cooling effect due to evaporation of rain water is excluded,the simulated 36-h maximum surface wind speed of Typhoon Rananim is about 7 m s-1 greater than that from all other experiments; however,the typhoon landfall location has the biggest bias of about 150 km against the control experiment.The simulated strong outer rainbands and the vertical shear of the environmental flow are unfavorable for the deepening and maintenance of the typhoon and result in its intensity loss near the landfall.It is the cloud microphysical processes that strengthen and create the outer spiral rainbands,which then increase the local convergence away from the typhoon center and prevent more moisture and energy transport to the inner core of the typhoon.The developed outer rainbands are supposed to bring dry and cold air mass from the middle troposphere to the planetary boundary layer (PBL).The other branch of the cold airflow comes from the evaporation of rain water itself in the PBL while the droplets are falling.Thus,the cut-off of the warm and moist air to the inner core and the invasion of cold and dry air to the eyewall region are expected to bring about the intensity reduction of the modeled typhoon.Therefore,the deepening and maintenance of Typhoon Rananim during its landing are better simulated through the reduction of these two kinds of model errors. 相似文献
6.
Based on high-fidelity numerical simulation by using the Weather Research and Forecast (WRF) model, we analyzed the formation and replacement mechanism of the concentric eyewall of Super Typhoon Muifa (1109) from the aspects of the potential vorticity (PV), dynamic/ thermodynamic structure change, sea surface flux, and water vapor content. Observational data and sensitivity tests were also adopted to verify the results. We found that: (1) The abnormal increase of the PV in the rain zone is mainly due to the condensation latent heat. Sufficient water vapor conditions are beneficial to the formation of the outer eyewall structure, and when the environmental water vapor content is larger, the intensity of the outer eyewall becomes greater. (2) After the formation of the typhoon’s outer eyewall, in the area where the outer eyewall is located, the increase of inertial stability contributes to the decrease of the intensity of the inner eyewall. When the intensity of the outer eyewall is larger, the divergence and subsidence motion in the upper layer of the outer eyewall has a greater weakening effect on the intensity of the inner eyewall. (3) The increase of potential temperature of the outer eyewall is mainly due to the condensation latent heat release and the warming of dry air subsidence motion in the moat area. (4) The increase of sea surface heat flux can prolong the concentric eyewall replacement process. 相似文献
7.
8.
Cloud-to-ground (CG) lightning data,storm intensity and track data,and the data from a Doppler radar and the Tropical Rainfall Measuring Mission (TRMM) satellite,are used to analyze the temporal and spatial characteristics of lightning activity in Typhoon Molave (0906) during different periods of its landfall (pre-landfall,landfall,and post-landfall).Parameters retrieved from the radar and the satellite are used to compare precipitation structures of the inner and outer rainbands of the typhoon,and to investigate possible causes of the different lightning characteristics.The results indicate that lightning activity was stronger in the outer rainbands than in the eyewall and inner rainbands.Lightning mainly occurred to the left (rather than "right" as in previous studies of US cases) of the moving typhoon,indicating a significant spatial asymmetry.The maximum lightning frequency in the tropical cyclone (TC) eyewall region was ahead of that in the whole TC region,and the outbreaks of eyewall lightning might indicate deepening of the cyclone.Stronger lightning in the outer rainbands is found to be associated with stronger updraft,higher concentrations of rain droplets and large ice particles at elevated mixed-phase levels,and the higher and broader convective clouds in the outer rainbands.Due to the contribution of large cloud nuclei,lightning intensity in the outer rainbands has a strong positive correlation with radar reflectivity.The ratio of positive CG lightning in the outer rainbands reached its maximum 1 h prior to occurrence of the maximum typhoon intensity at 2000 Beijing Time (BT) 18 July 2009.During the pre-landfall period (0300 BT 18 July-0050 BT 19 July),the typhoon gradually weakened,but strong lightning still appeared.After the typhoon made landfall at 0050 BT 19 July,CG lightning density rapidly decreased,but the ratio of positive lightning increased.Notably,after the landfall of the outer rainbands at 2325 BT 18 July (approximately 1.5 h prior to the landfall of the TC),significantly higher ice particle density derived from the TRMM data was observed in the outer rainbands,which,together with strengthened convection resulted from the local surface roughness effect,might have caused the enhanced lightning in the outer rainbands around the landfall of Molave. 相似文献
9.
眼墙替换是影响台风强度和内核结构的一种重要过程。本研究在高分辨率的数值理想试验中加入大涡模拟技术,对比分析大涡模拟对眼墙替换过程的影响。结果表明:大涡模拟的加入使得模拟台风的强度和边界层入流增强。整个眼墙替换过程共用时约20~22 h,但大涡模拟试验中外眼墙形成更迅速,同时强度和上升运动偏弱。外眼墙完全取代内眼墙之后的台风强度超过替换过程之前的强度。此外,使用大涡技术可以更好地模拟出眼墙替换过程中内外眼墙之间的moat区下沉运动,结构特征与前人观测中所发现的结构特征一致。因此,在台风数值研究中引入大涡模拟技术,有助于更好地模拟眼墙替换过程中的台风结构特征和变化。 相似文献
10.
0709号超强台风圣帕(Sepat)的闪电活动特征 总被引:6,自引:0,他引:6
利用全球闪电定位网 (WWLLN) 获取的闪电定位资料和中国气象局 (CMA) 提供的台风定位资料, 分析了2007年第9号超强台风圣帕的闪电时空演变特征。分析结果表明: 在热带低压至强热带风暴时期, 台风中心闪电活动频繁, 外围闪电少; 台风成熟时期, 呈现明显的三圈结构; 减弱消散时期, 中心闪电骤减, 几乎为零, 外围闪电密度远远超过中心闪电密度。眼壁闪电和台风总闪电存在阶段性变化。在台风中心最大风速急剧增大的阶段, 眼壁上的闪电两次爆发, 而在第二次眼壁闪电爆发后的两个小时, 中心风速达到最大值, 表明闪电活动有可能对台风增强有指示意义。台风眼壁置换是台风强度发生变化的一个转折点, 也是台风闪电活动发生变化的一个转折点, 从台风眼壁置换开始, 眼壁上闪电数接近于零。闪电次数跟云顶亮温存在显著性相关。结合热带测雨计划任务卫星 (TRMM) 上装载的闪电成像仪 (LIS) 和微波辐射计 (TMI) 资料, 进一步对比分析了台风闪电与强对流区域的关系, 发现闪电易发生在修正极化亮温低于225 K的深对流系统中, 但并不是所有的深对流中都能探测到闪电的发生。WWLLN和LIS探测到闪电发生区域基本一致。 相似文献
11.
Typhoon Rananim (2004) was one of the severest typhoons landfalling the Chinese mainland
from 1996 to 2004. It brought serious damage and induced prodigious economical loss. Using a new
generation of mesoscale model, named the Weather Research and Forecasting (WRF) modeling system,
with 1.667 km grid horizontal spacing on the finest nested mesh, Rananim was successfully simulated
in terms of track, intensity, eye, eyewall, and spiral rainbands. We compared the structures of
Rananim to those of hurricanes in previous studies and observations to assess the validity of
simulation. The three-dimensional (3D) dynamic and thermal structures of eye and eyewall were
studied based on the simulated results. The focus was investigation of the characteristics of
the vortex Rossby waves in the inner-core region. We found that the Rossby vortex waves propagate
azimuthally upwind against the azimuthal mean tangential flow around the eyewall, and their
period was longer than that of an air parcel moving within the azimuthal mean tangential flow.
They also propagated outward against the boundary layer inflow of the azimuthal mean vortex.
Futhermore, we studied the connection between the spiral potential vorticity (PV) bands and
spiral rainbands, and found that the vortex Rossby waves played an important role in the
formation process of spiral rainbands. 相似文献
12.
Lightning activity and its relationship with typhoon intensity and vertical wind shear for Super Typhoon Haiyan (1330) 下载免费PDF全文
下载免费PDF全文 Super Typhoon Haiyan (1330), which occurred in 2013, is the most powerful typhoon during landfall in the meteorological record. In this study, the temporal and spatial distributions of lightning activity of Haiyan were analyzed by using the lightning data from the World Wide Lightning Location Network, typhoon intensity and position data from the China Meteorological Administration, and horizontal wind data from the ECMWF. Three distinct regions were identified in the spatial distribution of daily average lightning density, with the maxima in the inner core and the minima in the inner rainband. The lightning density in the intensifying stage of Haiyan was greater than that in its weakening stage. During the time when the typhoon intensity measured with maximum sustained wind speed was between 32.7 and 41.4 ms?1, the storm had the largest lightning density in the inner core, compared with other intensity stages. In contrast to earlier typhoon studies, the eyewall lightning burst out three times. The first two eyewall lightning outbreaks occurred during the period of rapid intensification and before the maximum intensity of the storm, suggesting that the eyewall lightning activity could be used to identify the change in tropical cyclone intensity. The flashes frequently occurred in the inner core, and in the outer rainbands with the black body temperature below 220 K. Combined with the ECMWF wind data, the influences of vertical wind shear (VWS) on the azimuthal distribution of flashes were also analyzed, showing that strong VWS produced downshear left asymmetry of lightning activity in the inner core and downshear right asymmetry in the rainbands. 相似文献
13.
In this study, fine structures of spiral rainbands in super Typhoon Chanchu (2006) are examined using an Advanced Research Weather Research and Forecast (WRF-ARW) model simulation with the finest grid size of 2 km. Results show that the simulation reproduces well Typhoon Chanchu’s track, intensity and basic structures. According to their locations and features, spiral rainbands are classified into principal, secondary, inner and distant rainbands, and their dynamic and thermodynamic features are investigated. The principal rainbands remain quasi-stationary with respect to Chanchu’s center and exhibit a wavenumber-1 feature with their outer edges separated by dry air. The secondary rainbands that occur on the radially inward side of the principal rainbands move around Chanchu''s center. The inner rainbands are closest to the center. They propagate both radially outward and azimuthally with time. The distant rainbands are located outside the inner-core region, and have stronger and continuous updrafts compared to the other rainbands. Distant rainbands are inward-sloping with height along the radial direction and have a cold pool in the low layers, whereas the principal and secondary rainbands lean radially outward with height. The inner rainbands do not show tilting with height along the radial direction. However, there are few vertical tilting cells along the azimuthal orientation among the four types of rainbands. The simulated radar reflectivity cores in all rainbands are collocated with the maxima of updrafts and equivalent potential temperatures in the low layer, indicating the important roles of energy supply in the boundary layer in determining the development of the rainband convection. 相似文献
14.
在分析云微物理参数化对云结构和降水特征的影响的基础上,研究云微物理参数化过程对台风"云娜"强度与路径的影响.结果表明:云微物理过程对台风强度和路径有一定影响,其中不考虑雨水蒸发冷却效应后,比其他试验最终地面最大风速强7 m/s以上,但此时登陆地点误差最大,与对照试验偏离150 km左右.我们还从螺旋雨带结构变化及环境风切变影响角度分析台风临近登陆时强度模拟减弱的原因,发现过强的外围螺旋雨带以及环境风场垂直切变对于台风的加深、维持是不利的,他们可能会造成"云娜"临近登陆时强度的下降.不难看出,云微物理过程可以加强甚至产生外螺旋雨带,当外围雨带发展加强之后,可以引起局地辐合强度增强,从而限制了大量水汽和能量向台风内核输送,从而会导致台风强度下降.此外,外围螺旋雨带的发展,还可以从对流层中层带来干冷空气入侵行星边界层;而当入流边界层中雨水下落时,其自身的蒸发也会使周围气块温度下降;这些干冷气团在入流气流的输送下进入台风内核,从而对云墙产生了"冷侵蚀",最终引起台风强度下降.因此,减小上述两方面的模拟误差,应能改进台风"云娜"登陆过程中强度的模拟效果. 相似文献
15.
强台风Chanchu(0601)的数值研究:转向前后内核结构和强度变化 总被引:3,自引:0,他引:3
使用FY卫星TBB资料和新一代非静力中尺度模式WRF分析南海强台风Chanchu(0601)"急翘"转向前后内核结构和强度变化过程。结果表明:转向后内核结构非对称特征明显。WRF数值模式较好地模拟出Chanchu强度和异常路径变化过程,再现了内核结构演变:转向前,垂直切变较弱,有利于快速加强,内核结构较为对称;转向后,垂直切变明显增大,强回波位于垂直切变下风方向的左侧,显示为内核非对称结构。使用傅立叶变换方法分解模拟结果中的雷达回波,发现眼壁和内螺旋雨带的2波非对称沿方位角移速与涡旋罗斯贝波(VRWs)的理论波速一致,Chanchu快速加强过程中断和强度维持的可能原因为:眼壁传播的VRWs受到外螺旋雨带的扰动以及涡旋倾斜加剧引起眼壁非对称性加强导致"急翘"时眼壁破裂,此后眼区和眼壁区水平混合过程加强,850 hPa眼区相当位温明显增加,抑制高层相对暖干空气和低层相对冷湿空气相互交换,使得随眼壁内侧下沉气流向下输送的暖干空气减少,低层增温作用减弱,快速加强过程中断;VRWs径向内传导致高值涡度由眼壁内侧向眼心传播,引起最大风速半径(RMW)内侧切向风速增大,RMW随时间向眼心延伸,眼壁进一步收缩,一定程度上抵消了垂直切变加大的负面影响,Chanchu维持强度。 相似文献
16.
“浣熊”强度变化的环境背景和卫星观测分析 总被引:1,自引:1,他引:0
利用实况观测定位和强度资料、NCEP的1°×1°全球最终分析资料、NOAA周平均1°×1°海温再分析资料和FY卫星水汽图像,分析台风浣熊(0801)的环境背景条件和内核结构演变与强度变化的关系.结果表明:(1)环境风垂直切变增大至10m·s~(-1)左右与南海北部海表温度逐步减小导致最大可能强度不断降低是"浣熊"快速发展过程中断并减弱的重要外部条件;(2)卫星水汽图像显示内核结构存在眼壁破裂和复原现象,该现象精确地反映其强度变化.眼壁破裂(复原)过程导致"浣熊"减弱(增强). 相似文献
17.
利用美国威斯康星大学气象卫星研究合作院提供的集成微波图像资料和联合台风预警中心的最佳路径资料,普查2005—2014年西北太平洋地区具有同心眼墙结构的35个强台风个例。对比分析了有、无同心眼墙及同心眼墙生成快、慢的样本的环境场和自身初始结构差异。结果表明:环境场要素对同心眼墙形成与否具有重要调制作用,环境场相对湿度越大,海温越高,同心眼墙越易生成;而同心眼墙的形成速率与自身结构存在密切关系,初始涡旋尺度越大,同心眼墙生成越快,外眼墙位置距离台风中心越远,眼墙替换时间越长,眼墙替换前后强度变化越明显。 相似文献
18.
Super Typhoon Haiyan(1330), which occurred in 2013, is the most powerful typhoon during landfall in the meteorological record. In this study, the temporal and spatial distributions of lightning activity of Haiyan were analyzed by using the lightning data from the World Wide Lightning Location Network,typhoon intensity and position data from the China Meteorological Administration, and horizontal wind data from the ECMWF. Three distinct regions were identified in the spatial distribution of daily average lightning density, with the maxima in the inner core and the minima in the inner rainband. The lightning density in the intensifying stage of Haiyan was greater than that in its weakening stage. During the time when the typhoon intensity measured with maximum sustained wind speed was between 32.7 and 41.4 m s-1, the storm had the largest lightning density in the inner core, compared with other intensity stages.In contrast to earlier typhoon studies, the eyewall lightning burst out three times. The first two eyewall lightning outbreaks occurred during the period of rapid intensification and before the maximum intensity of the storm, suggesting that the eyewall lightning activity could be used to identify the change in tropical cyclone intensity. The flashes frequently occurred in the inner core, and in the outer rainbands with the black body temperature below 220 K. Combined with the ECMWF wind data, the influences of vertical wind shear(VWS) on the azimuthal distribution of flashes were also analyzed, showing that strong VWS produced downshear left asymmetry of lightning activity in the inner core and downshear right asymmetry in the rainbands. 相似文献
19.
Dong-Kyun Kim Yeon-Hee Kim Kwan-Young Chung 《Asia-Pacific Journal of Atmospheric Sciences》2013,49(2):161-169
The vertical structure and microphysics of Typhoon Kompasu that caused a lot of damage associated with strong winds and heavy rainfall over the Seoul metropolitan area on 1~2 September 2010 were examined primarily from wind profiler measurements. Four different periods that represent a stratiform, outer rainband, inner rainband, and eyewall region during passage of Typhoon Kompasu from 1200 to 2300 UTC 1 September were selected based on bright band intensities and vertical profiles of radar reflectivities and Doppler velocities. The bright band signatures observed in all of these periods indicated that the structure of Kompasu was basically stratiform in a weakening phase. Maximum rainfall rates up to 50 mm hr?1 at the surface and mean wind speeds greater than 30 m s?1 in the 2–4 km layer were observed in the eyewall region. Unlike the other regions that showed nearly zero vertical air motions or weak downdrafts below a melting layer, a mean updraft of ~1 m s?1 was analyzed only in the eyewall region, which suggests that the updrafts may have enhanced drop growth that led to increasing surface rainfall rates. For each region, the vertical mean characteristics of rainfall parameters retrieved from wind profiler spectra below the melting layer were also examined. The rain properties between the inner and outer rainband were similar although they were apart with a distance of more than 100 km (> 2 hrs in time). The averaged mass-weighted mean diameters within the rainbands were larger than those in the stratiform and eyewall regions. A weaker bright band in the eyewall region suggests the presence of a relatively larger number of rimed particles associated with the updrafts around the melting layer. A stronger bright band was present in the rainbands, which indicates more active aggregation right above the melting layer. 相似文献
20.
In this paper, the evolution of the microphysical characteristics in different regions(eyewall, inner core, and outer rainbands) and different quadrants [downshear left(DL), downshear right(DR), upshear left(UL), and upshear right(UR)]during the final landfall of Typhoon Ewiniar(2018) is analyzed using two-dimensional video disdrometer and S-band polarimetric radar data collected in Guangdong, China. Due to the different types of underlying surfaces, the periods before landfall(mainly dominated ... 相似文献