| 自动气象站资料在模拟苏北一次飑线过程中的应用 |
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| 引用本文: | 李斌,吴立广.自动气象站资料在模拟苏北一次飑线过程中的应用[J].热带气象学报,2019,35(6):789-800. |
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| 作者姓名: | 李斌 吴立广 |
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| 作者单位: | 南京信息工程大学太平洋台风研究中心,江苏 南京 210044 |
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| 基金项目: | 国家重点基础研究发展计划(973计划)2015CB452803国家自然科学基金41730961国家自然科学基金41675051 |
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| 摘 要: | 为了研究自动气象站资料在模拟中国东部飑线过程中的影响,利用WRF模式模拟了2009年6月14日发生在苏北地区的一次飑线过程。首先设计了两个数值试验,两个试验都只用FNL资料作为初始场和边界条件,但是模拟开始时间分别为北京时间10时和08时,离观测的飑线过程开始时间分别有3 h和5 h。在10时开始的试验(控制试验)中,模拟飑线过程时间上有3~4 h延迟,空间上向东偏移了100 km左右,但是试验可模拟出与观测相似的飑线发展过程,即对流从山东省南部开始、飑线弓形回波在江苏北部成熟和在江苏南部消亡的过程。而在08时开始的试验中(对比试验),没有能够模拟出与观测相似飑线发展过程,降水范围和飑线水平尺度偏小,对流强度明显偏弱,时间上比控制试验更晚。分析发现,FNL资料中的相对湿度低于观测,通过增加低层水汽,可提高模拟效果,对流触发时间也与观测更加接近。在加入地面自动气象站资料的敏感性实验中,对流触发时间比控制试验提前1 h,可模拟出与观测相似的飑线发展过程。因此,低层水汽对这次飑线过程模拟具有重要影响,在飑线数值模拟中加入地面自动气象站加密观测资料可有效提高模拟能力。
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| 关 键 词: | 天气学 飑线 数值模拟 自动气象站 低层水汽 |
| 收稿时间: | 2018-12-03 |
APPLICATION OF AUTOMATIC METEOROLOGICAL STATION DATA IN THE SIMULATION OF A SQUALL LINE IN NORTH JIANGSU PROVINCE |
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| LI Bin and WU Li-guang.APPLICATION OF AUTOMATIC METEOROLOGICAL STATION DATA IN THE SIMULATION OF A SQUALL LINE IN NORTH JIANGSU PROVINCE[J].Journal of Tropical Meteorology,2019,35(6):789-800. |
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| Authors: | LI Bin and WU Li-guang |
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| Institution: | Pacific Typhoon Research Center, Nanjing University of Information Science & Technology, Nanjing 210044, China |
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| Abstract: | In order to study the effect of automatic meteorological station data on the simulation of squall lines in eastern China, a squall line occurred in northern Jiangsu Province on 14, 2009 was simulated by WRF model. First, two experiments were designed. Both experiments only used FNL data as the initial field and boundary conditions, but the start time of the simulations were 1000 and 0800 Beijing Standard Time (BST), respectively. The simulated squall line that started at 1000 BST in control run (CTL) was delayed for 3-4 hours and shifted to the east about 100 km, but the results captured the features of the squall line evolution, structure and precipitation that are similar to the observation. However, the experiment started at 0800 BST (EXP-C) was not able to simulate the development of the squall line. The precipitation range and the squall line horizontal scale were small, the convection intensity was obviously weak, and the triggering time was later than the CTL. It is found that the relative humidity in the FNL data is lower than the observation. By increasing the low-level water vapor, the simulation results can be improved, especially the triggering time of convection is closer to the observation. In the sensitivity experiment of adding automatic meteorological station data (EXP-S), the convection triggering time is 1h ahead of the CTL. Therefore, the low-level water vapor has an important influence on the squall line simulation. Adding the automatic meteorological station data to the squall line numerical simulation can effectively improve the results. |
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| Keywords: | synoptic meteorology squall line numerical simulation automatic meteorological stations low-level water vapor |
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