排序方式: 共有51条查询结果,搜索用时 15 毫秒
1.
为了改善数值预报模式短时临近降水预报能力,采用雷达水汽反演同化方案来提高模式初始水汽场质量。以华南精细预报模式对2013年5月进行了冷启动、热启动和热启动加雷达水汽同化等3个对比试验,并进一步详细分析2013年5月8—9日广东西南部到珠三角地区强降雨过程,探讨雷达反演水汽对短时临近降水预报的影响作用。分析结果显示3个试验结果反映精细模式冷启动不利于1~6 h的降水预报,模式热启动能较好预报前6 h的降水,但对随后预报效果不佳。在热启动的基础上,考虑同化雷达反演的水汽后,不仅较好模拟前6 h的降水,也可以预报出6~12 h的降雨带变化趋势。 相似文献
2.
采用预报涡旋的初始化方案对2015年台风“莲花”、“灿鸿”的试验研究 总被引:1,自引:0,他引:1
提出了一种采用预报涡旋的初始化方案,用预报涡旋代替bogus模型参与构建模式初始场,采用权重形式合成预报涡旋和分析涡旋获取台风初始涡旋。针对2015年“莲花”和“灿鸿”台风,基于该初始化方案设计了一系列对比试验进行数值模拟,并对结果进行分析。结果表明:(1)该方案得到的台风初始涡旋结构比bogus模型合理;(2)预报涡旋权重不宜取太大;(3)从长时效预报效果看,采用24 h内预报涡旋比采用长时效预报涡旋台风的路径和强度误差减小;(4)采用同一权重方案对“莲花”、“灿鸿”预报的改进效果不同,其原因与预报涡旋和分析涡旋的协调程度有关。多台风情形下可在初步评估的基础上采用不同时效的预报涡旋和不同权重方案。 相似文献
3.
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
4.
华南区域高分辨率模式中不同雷达回波反演技术方案的比较试验 总被引:1,自引:0,他引:1
结合一次比较典型的华南前汛期暴雨过程,对目前常用的几种雷达回波反演技术进行比较,试图得到一种适用于华南区域高分辨率模式的技术方案。首先比较了两种不同的水凝物反演技术对短期降水预报的影响,发现基于暖雨假设构造的经验公式反演得到的云微物理量进行Nudging以后预报降水比实况偏弱,而利用LAPS系统可以反演出高层的固态粒子,这些云粒子通过冰相过程可以产生强度与实况相当的降水。仅仅引入初始场的凝结物只对第一小时降水预报改进比较明显。通过对两种不同的水汽反演技术进行比较,发现1D+3D方法反演得到的水汽场并不适用于高分辨率模式,按该方法调整初始场水汽之后反而导致降水预报效果变差,而根据雷达回波调整水汽饱和的方法却可以有效提高前6小时的降水评分,这种改进主要来自降水漏报现象的减少。总体来说,结合利用LAPS系统反演云物理量以及水汽饱和调整方法是一套比较适合华南区域高分辨率模式的技术路线。 相似文献
5.
6.
7.
This review summarizes the general developments of the operational mesoscale modeling based on the Global/Regional Assimilation and Prediction System-Tropical Monsoon Model (GRAPES-TMM) at the Guangzhou Regional Meteorological Center. GRAPES-TMM consists of the Tropical Regional Atmospheric Model System for the South China Sea (TRAMS, a typhoon model with a horizontal resolution of 9 km), the Mesoscale Atmospheric Regional Model System (MARS, 3km) and the fine-scale Rapid Update Cycling (RUC, 1km) forecasting system. The advances of model dynamical core and physical processes are summarized; the progress of model applications is reviewed and evaluated. The results show that the updated 9-3-1 forecasting system provides an overall improved performance on the weather forecasting in south China. Capabilities and limitations as well as the future development of the forecasting system are also discussed 相似文献
8.
选取2009年3月28日广东省广州市大暴雨过程,考察了变分校准前后Z-I关系估算雷达降水率的区别。变分校准后的降水率资料具有较高的单点精度与合理的梯度分布。降水率资料能够反映大气动力特征和水汽分布等重要信息,是模拟中小尺度系统的关键因子。基于GRAPES (Global/Regional Analysis and Prediction System) 区域三维变分系统,将FSU (Florida State University) 对流参数化方案作为观测算子的同化试验指出,同化降水率资料后同时增强了低层大气的辐合和高层大气的辐散,从而使整层气柱的不稳定能量增加。沙氏指数和K指数诊断分析也表明,同化降水率资料后有利于触发强对流天气。此外,低空辐合有利于水汽垂直输送,维持对流发展,改进降水模拟。逐小时数值模拟结果表明:同化校准后的雷达估算降水率不仅可以改进降水分布,而且使中尺度对流系统的发展和消亡清晰地表现出来。 相似文献
9.
10.
MODIS BRIGHTNESS TEMPERATURE DATA ASSIMILATION UNDER CLOUDY CONDITIONS: METHODS AND IDEAL TESTS 总被引:1,自引:1,他引:0
Clouds have important effects on the infrared radiances transmission in that the inclusion of
cloud effects in data assimilation can not only improve the quality of the assimilated atmospheric
parameters greatly, but also minimize the initial error of cloud parameters by adjusting part of the infrared
radiances data. On the basis of the Grapes-3D-var (Global and Regional Assimilation and Prediction
Enhanced System), cloud liquid water, cloud ice water and cloud cover are added as the governing
variables in the assimilation. Under the conditions of clear sky, partly cloudy cover and totally cloudy cover,
the brightness temperature of 16 MODIS channels are assimilated respectively in ideal tests. Results show
that when the simulated background brightness temperatures are lower than the observation, the analyzed
field will increase the simulated brightness temperature by increasing its temperature and reducing its
moisture, cloud liquid water, cloud ice water, and cloud cover. The simulated brightness temperature can
be reduced if adjustment is made in the contrary direction. The adjustment of the temperature and specific
humidity under the clear sky conditions conforms well to the design of MODIS channels, but it is
weakened for levels under cloud layers. The ideal tests demonstrate that by simultaneously adding both
cloud parameters and atmospheric parameters as governing variables during the assimilation of infrared
radiances, both the cloud parameters and atmospheric parameters can be adjusted using the observed
infrared radiances and conventional meteorological elements to make full use of the infrared observations. 相似文献