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1.
Based on the Tropical Region Atmospheric Modeling System for South China Sea (TRAMS), Typhoon Roke (1115) and Sonca (1116) in 2011 which have large forecast errors in numerical operation prediction, have been selected for research focusing on the initial scheme and its influence on forecast. The purpose is to find a clue for model improvement and enhance the performance of the typhoon model. Several initialization schemes have been designed and the corresponding experiments have been done for Typhoon Roke and Sonca. The results show that the forecast error of both typhoons’ track and intensity are less using the initial scheme of relocation and bogus just for the weak Typhoon Sonca, compared with using the scheme for both typhoons. By analysis the influence of the scheme on weak typhoon vortex circulation may be the reason that leads to the improvement. All weak typhoons in 2011 to 2012 are selected for tests. It comes to the conclusion that the initial scheme of relocation and bogus can reduce the error of track and intensity forecast. Besides, the height of cloud top in typhoon vortex constructed by bogus is too high according to weak typhoon. It is feasible to develop a bogus which is suitable for weak typhoon. 相似文献
2.
The impact of cumulus parameterizations and microphysics schemes under different combinations on typhoon track prediction 总被引:2,自引:1,他引:1
This study examines the effects of cumulus parameterizations and microphysics schemes on the track forecast of typhoon Nabi using the Weather Research Forecast model. The study found that the effects of cumulus parameterizations on typhoon track forecast were comparatively strong and the typhoon track forecast of Kain-Fritsch (KF) was superior to that of Betts-Miller (BM). When KF was selected, the simulated results would be improved if microphysics schemes were selected than otherwise. The results from Ferrier, WSM6, and Lin were very close to those in the best track. KF performed well with the simulations of the western extension and eastern contraction changes of a North Pacific high as well as the distribution and strength of the typhoon wind field. 相似文献
3.
The MM5, which is the PSU/NCAR mesoscale nonhydrostatic limited-area model, and its
adjoining modeling system are used in this paper. Taking T106 analysis data as background field the authors
generate an optimal initial condition of a typhoon by using two bogus data assimilation schemes, and conduct
some numerical simulating experiments. The results of No.9608 typhoon (Gloria) show that the optimal initial
field have some dramatic improvements, such as inaccurate position of typhoon center, weaker typhoon
circulation and incomplete inner structure of the typhoon, which are caused by shortage of data over the sea.
Some improvements have been made in the track forecast. Through several comparing experiments, the
initialization optimized by BDA scheme is found to be more reasonable than GFDL scheme and its typhoon track
forecast is better. 相似文献
4.
A new method, BDA perturbing, is used in ensemble forecasting of typhoon track. This method is
based on the Bogus Data Assimilation scheme. It perturbs the initial position and intensity of typhoons and gets a
series of bogus vortex. Then each bogus vortex is used in data assimilation to obtain initial conditions. Ensemble
forecast members are constructed by conducting simulation with these initial conditions. Some cases of typhoon
are chosen to test the validity of this new method and the results show that: using the BDA perturbing method to
perturb initial position and intensity of typhoon for track forecast can improve accuracy, compared with the direct
use of the BDA assimilation scheme. And it is concluded that a perturbing amplitude of intensity of 5 hPa is
probably more appropriate than 10 hPa if the BDA perturbing method is used in combination with initial
position perturbation. 相似文献
5.
CORRECTION OF ASYMMETRIC STRENGTHENING OF QUIKSCAT WIND FIELD AND ASSIMILATION APPLICATION IN TYPHOON SIMULATION 总被引:3,自引:2,他引:1
As an approach to the technological problem that the wind data of QuikSCAT scatterometer
cannot accurately describe the zone of typhoon-level strong wind speed, some objective factors such as the
typhoon moving speed, direction and friction are introduced in this study to construct the asymmetric
strengthening of the QuikSCAT wind field. Then by adopting a technology of four-dimensional data
assimilation, an experiment that includes both the assimilation and forecasting phases is designed to
simulate Typhoon Rananim numerically. The results show that with model constraints and adjustment, this
technology can incorporate the QuikSCAT wind data to the entire column of the model atmosphere,
improve greatly the simulating effects of the whole-column wind, pressure field and the track as well as the
simulated typhoon intensity covered by the forecast phase, and work positively for the forecasting of
landfall locations. 相似文献
6.
While previous studies indicate that typhoons can decrease sea surface temperature(SST) along their tracks, a few studies suggest that the cooling patterns in coastal areas are different from those in the open sea. However, little is known about how the induced cooling coupled with the complex ocean circulation in the coastal areas can affect tropical cyclone track and intensity. The sea surface responses to the land falling process of Typhoon Morakot(2009) are examined observationally and its influences on the activity of the typhoon are numerically simulated with the WRF model. The present study shows that the maximum SST cooling associated with Morakot occurred on the left-hand side of the typhoon track during its landfall. Numerical simulations show that, together with the SST gradients associated with the coastal upwelling and mesoscale oceanic vortices, the resulting SST cooling can cause significant difference in the typhoon track, comparable to the current 24-hour track forecasting error. It is strongly suggested that it is essential to include the non-uniform SST distribution in the coastal areas for further improvement in typhoon track forecast. 相似文献
7.
The Effect of Intensity: Typhoon-Induced SST Cooling on Typhoon The Case of Typhoon Chanchu (2006) 总被引:4,自引:0,他引:4
In order to investigate air-sea interactions during the life cycle of typhoons and the quantificational effects of typhoon-induced SST cooling on typhoon intensity, a mesoscale coupled air-sea model is developed based on the non-hydrostatic mesoscale model MM5 and the regional ocean model POM, which is used to simulate the life cycle of Typhoon Chanchu (2006) from a tropical depression to a typhoon followed by a steady weakening. The results show that improved intensity prediction is achieved after considering typhoon-induced SST cooling; the trend of the typhoon intensity change simulated by the coupled model is consistent with observations. The weakening stage of Typhoon Chanchu from 1200 UTC 15 May to 1800 UTC 16 May can be well reproduced, and it is the typhoon-induced SST cooling that makes Chanchu weaken during this period. Analysis reveals that the typhoon-induced SST cooling reduces the sensible and latent heat fluxes from the ocean to the typhoon's vortex, especially in the inner-core region. In this study, the average total heat flux in the inner-core region of the typhoon decrease by 57.2%, whereas typhoon intensity weakens by 46%. It is shown that incorporation of the typhoon-induced cooling, with an average value of 2.17℃, causes a 46-hPa weakening of the typhoon, which is about 20 hPa per 1℃ change in SST. 相似文献
8.
Four landfalling typhoon cases in 2005 were selected for a numerical simulation study with the
Global/Regional Assimilation and Prediction System (GRAPES) model. The preliminary assessment
results of the performance of the model, including the predictions of typhoon track, landfall time, location
and intensity, etc., are presented and the sources of errors are analyzed. The 24-hour distance forecast error
of the typhoon center by the model is shown to be about 131 km, while the 48-hour error is 252 km. The
model was relatively more skilful at forecasts of landfall time and locations than those of intensity at
landfall. On average, the 24-hour forecasts were slightly better than the 48-hour ones. An analysis of data
impacts indicates that the assimilation of unconventional observation data is essential for the improvement
of the model simulation. The model could also be improved by increasing model resolution to simulate the
mesoscale and fine scale systems and by improving methods of terrain refinement processing. 相似文献
9.
The impact of different cloud microphysics parameterization schemes on the intensity and structure of the
Super-strong Typhoon Rammasun (1409) in 2014 is investigated using the Weather Research and Forecasting model
version 3.4 with eight cloud microphysics parameterization schemes. Results indicate that the uncertainty of cloud
microphysics schemes results in typhoon forecast uncertainties, which increase with forecast time. Typhoon forecast
uncertainty primarily affects intensity predictions, with significant differences in predicted typhoon intensity using the
various cloud microphysics schemes. Typhoon forecast uncertainty also affects the predicted typhoon structure.
Greater typhoon intensity is accompanied by smaller vortex width, tighter vortex structure, stronger wind in the
middle and lower troposphere, greater height of the strong wind region, smaller thickness of the eyewall and the
outward extension of the eyewall, and a warmer warm core at upper levels of the eye. The differences among the
various cloud microphysics schemes lead to the different amounts and distributions of water vapor and hydrometeors
in clouds. Different hydrometeors have different vertical distributions. In the radial direction, the maxima for the
various hydrometeors forecast by a single cloud microphysics scheme are collocated with each other and with the
center of maximum precipitation. When the hydrometeor concentration is high and hydrometeors exist at lower
altitudes, more precipitation often occurs. Both the vertical and horizontal winds are the strongest at the location of
maximum precipitation. Results also indicate that typhoon intensities forecast by cloud microphysics schemes
containing graupel processes are noticeably greater than those forecast by schemes without graupel processes. Among
the eight cloud microphysics schemes investigated, typhoon intensity forecasts using the WRF Single-Moment 6-class
and Thompson schemes are the most accurate. 相似文献
10.
Numerical modeling and experiments are conducted for the South China Sea typhoons Helen (1995) and Willie (1996) with an auto-adaptive mesh model. It is shown that durating the stage of dissipation the typhoons are mainly related with the subtropical high rather than the topography. The high is sensitive to the intensity change of the typhoon so that the former weakens as the latter strengthens and vice versa. Maintaining the typhoon as a main factor, the release of latent heat is in reversed proportion with the subtropical high in terms of the intensity. It is found that the storm tends to be maintained if it moves close to the westerly trough after landfall. 相似文献
11.
超强台风"海燕"是2013年最著名的台风。分析中国南海台风模式对"海燕"整个过程的预报,发现模式基本预报出"海燕"的快速穿过菲律宾和登陆越南后北翘东折的移动路径,但也存在一些不足,例如强度预报偏弱。通过高分辨率数值模拟分析了"海燕"的变化机理,发现高层暖心、高中低层一致东风气流是其超强发展和快速西移的主要特征。进一步的模式预报试验中,探讨了模拟技术对提高台风预报水平的影响作用。分析结果表明,准确的模式物理参数化(如边界层、积云对流和地形参数化)和模式初始大气构造等,以及提高模式分辨率有助于提高台风预报水平。 相似文献
12.
台风数值模拟中边界层方案的敏感性试验I.对台风结构的影响 总被引:9,自引:7,他引:2
通过比较不同边界层方案下中尺度数值模式模拟的台风地表特征量以及形势场和风场, 表明台风边界层通过摩擦混合和辐射等作用与地表产生水汽、热量和动量的交换, 并通过湍流效应和积云的夹卷作用将边界层的影响扩展至整个自由大气.对台风Dan的模拟个例表明, 由于边界层过程的差异导致台风尺度大小不同, 风场、形势场的水平和垂直分布结构都有所差异.不同边界层方案模拟的台风结构的差异必然导致强度的差异, 与此相对应, 在不同边界层方案下, Eta方案模拟的台风强度偏大; 而Burk-Thompson和Blackadar方案略次之,在没有边界层方案的情况下模拟的强度非常弱,体现了边界层过程对台风发生发展的巨大影响. 相似文献
13.
应用蓝金模式模拟了纯气旋性旋转的多普勒雷达径向速度特征,还模拟了不同环境风向和吹向台风中心的辐合风对台风多普勒速度特征的影响。在此基础上,提出了雷达实测台风速度的特征和不同环境风向的速度数值模拟图进行比较,从而提取出相应环境风信息的方法,并应用这种环境风信息来判断台风的移动路径。通过对台风实例分析,特别是在台风发生转折的关键时刻,该方法都能够较准确地判断环境风转折的多普勒速度特征。应用多普勒雷达径向速度图像与不同环境风向模拟图像进行比较的方法,能够实时(雷达观测时间间隔仅为6 min)监测到环境气流的方向及其变化,比较准确地监测台风的移动路径,这是其他大尺度气象资料难以做到的。分析表明:环境风转向变化的现象在前,台风发生转折的现象在后,对台风路径的短时预报具有一定应用价值。 相似文献
14.
T639台风预报误差与环境场变量的相关分析和回归分析 总被引:1,自引:1,他引:0
利用国家气象中心全球谱模式T639L60(简称T639)数值预报结果和上海台风研究所整编的台风最佳路径数据,基于2009—2010年的样本,分析了西北太平洋和南海台风的环境场预报变量与路径预报误差的相关性,利用线性回归分析,建立了T639台风中心预报误差与环境风整层垂直切变、400 hPa台风环流强度的24~120 h各预报时效线性预估模型(建模样本数分别为299、232、170、117和84个),并利用2011年的样本对模型进行了检验(检验样本数分别为182、146、117、85和61个)。初步结果表明,环境风垂直切变与路径误差呈正相关,台风各层环流强度与路径误差大致呈负相关,其中400 hPa上的负相关性最明显;由环境风垂直切变与400 hPa台风环流强度建立的线性预估模型能对路径预报误差作出定性估计,其中24h预报时效的预估模型有较好的预估效果。 相似文献
15.
台风及海洋气象一体化预报平台为面向台风和海洋气象业务的预报预警服务的支撑系统,集数据采集、转换、预报、分析、产品制作、发布等功能于一体。该平台基于人机交互气象信息处理和天气预报制作系统MICAPS4(Meteorological Information Comprehensive Analysis and Processing System Version 4)框架开发,结合台风、海洋气象新型的观测和预报数据,实现台风、海洋气象数据的集约化检索与显示、精细化格点编辑、台风和海洋气象产品制作、产品发布等功能。台风及海洋气象一体化预报平台设计基于面向服务和分层体系结构,采用组件化设计方法,涵盖数据解析、分析处理、产品制作、交互工具、配置管理等核心组件,形成可扩展的业务功能模块和二次开发接口,目前已作为中央气象台台风海洋气象预报预警业务的主要平台投入使用。 相似文献
16.
A typhoon bogus data assimilation scheme (BDA) using dimension-reduced projection four-dimen-sional variational data assimilation (DRP-4-DVar),called DRP-BDA for short,is built in the Advanced Regional Eta Model (AREM).As an adjoint-free approach,DRP-BDA saves time,and only several minutes are taken for the full BDA process.To evaluate its performance,the DRP-BDA is applied to a case study on a landfall ty-phoon,Fengshen (2008),from the Northwestern Pacific Ocean to Guangdong province,in which the bogus sea level pressure (SLP) is assimilated as a kind of observa-tion.The results show that a more realistic typhoon with correct center position,stronger warm core vortex,and more reasonable wind fields is reproduced in the analyzed initial condition through the new approach.Compared with the control run (CTRL) initialized with NCEP Final (FNL) Global Tropospheric Analyses,the DRP-BDA leads to an evidently positive impact on typhoon track forecasting and a small positive impact on typhoon inten-sity forecasting.Furthermore,the forecast landfall time conforms to the observed landfall time,and the forecast track error at the 36th hour is 32 km,which is much less than that of the CTRL (450 km). 相似文献
17.
Impact of Cloud Microphysical Processes on the Simulation of Typhoon Rananim near Shore. Part II: Typhoon Intensity and Track 
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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
18.
中央气象台台风强度综合预报误差分析 总被引:6,自引:5,他引:1
本文从总误差、逐年趋势、误差分布等方面对2001—2012年中央气象台(Central Meteorological Observatory, CMO)的台风(TC)强度综合预报水平进行分析,初步分析了强度迅速变化台风预报偏差大的原因。结果表明,强度预报水平没有明显改善,预报误差呈现逐年波动状态,强度稳定TC的预报误差最小,迅速加强TC的预报误差最大。24、96~120 h预报偏强的概率较大,而48~72 h预报偏弱的概率大。南海东北部等海域的预报误差较大,应在业务预报中特别予以关注。随着TC强度的逐渐增强,强度预报在120 h内预报偏强的可能性变大,而强度预报偏弱的可能性减小。根据误差分析结果,提出了一个强度概率预报方案,检验结果表明可在业务中参考使用。 相似文献