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气象:2022,48(5):580-594
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加密探空资料同化对北京地区边界层数值模拟的影响
李秋阳,王成刚,王旻燕
(南京信息工程大学,中国气象局气溶胶与云降水重点开放实验室,南京 210044;国家气象信息中心,北京 100081)
Influence of Densely-Observed Radiosonde Data Assimilation on Numerical Simulation of Atmospheric Boundary Layer in Beijing Area
LI Qiuyang,WANG Chenggang,WANG Minyan
(Key Laboratory for Aerosol-Cloud-Precipitation, CMA, Nanjing University of Information Science and Technology, Nanjing 210044;National Meteorological Information Centre, Beijing 100081)
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投稿时间:2021-05-05    修订日期:2022-02-22
中文摘要: 基于2016年8月28日至9月2日在北京市宝联站、朝阳站、大兴站获得的逐3 h加密探空资料,利用WRF V3.9.1模式和WRF-3DVar系统,对北京地区大气边界层进行数值模拟试验,研究加密探空资料同化对边界层数值模拟的影响。结果表明:同化形成的分析场较背景场更接近观测值,更能表现边界层内真实大气的热力、湿度状态及动力特征。位温、比湿、纬向风、经向风、风速分析场的均方根误差分别较背景场的减少了86%、59%、24%、44%、19%,体现出同化的较强修正作用。加密探空资料同化的预报效果在模式积分6 h内最好,之后同化作用的大小及范围逐渐减弱。加密探空资料同化对边界层内大气湿度状态在整个预报时段内均有改进,对边界层内大气热力状态的改进持续6 h,对于边界层内大气动力特征的改进,纬向风改进较多,经向风和风速不明显,这与风的自身属性、北京市的复杂地形有关。另外,加密探空资料的站点数在空间水平方向上比较少也是导致同化在分析场的改善作用明显但是效果难以持续较长时间的原因之一
Abstract:Based on the 3 h densely-observed radiosonde data from Baolian Station, Chaoyang Station, and Daxing Station in Beijing from 28 August to 2 September 2016, and using the WRF V3.9.1 model and WRF-3DVar system, a numerical simulation test of the atmospheric boundary layer in the Beijing Area was carried out to study the impact of the densely-observed radiosonde data assimilation on the numerical simulation of the boundary layer. The results show that the analysis field formed by assimilation is closer to the observation than the background field, and it can better represent the thermal, humidity and dynamic characteristics of the real atmosphere in the boundary layer. Respectively compared with the background field, the root mean square errors of the analysis field of potential temperature, specific humidity, zonal wind, meridional wind, and wind speed are reduced by 86%, 59%, 24%, 44%, 19% correspondingly, showing a strong correction effect of assimilation. The prediction effect of the densely-observed radiosonde data assimilation within 6 hours of model integration is the best, but gradually weakens in size and scope after 6 hours. The densely-observed radiosonde data assimilation improves the atmospheric humidity in the boundary layer throughout the forecast period. The improvement of the atmospheric thermal state in the boundary layer lasts for 6 hours. For the atmospheric dynamic characteristics in the boundary layer, the zonal wind improves most, the meridional wind and wind speed are not obvious, which are related to the nature of the wind and the complex terrain of Beijing. In addition, the relatively small number of sites for densely-observed radiosonde data in the spatial horizontal direction is one of the reasons that the assimilation effect has a significant improvement in the analysis field but is difficult to last for a long time.
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基金项目:国家自然科学基金面上项目(41975011)、国家重点研发计划(2016YFC0201900)共同资助
引用文本:
李秋阳,王成刚,王旻燕,2022.加密探空资料同化对北京地区边界层数值模拟的影响[J].气象,48(5):580-594.
LI Qiuyang,WANG Chenggang,WANG Minyan,2022.Influence of Densely-Observed Radiosonde Data Assimilation on Numerical Simulation of Atmospheric Boundary Layer in Beijing Area[J].Meteor Mon,48(5):580-594.