基于WRF模型的2010年喀布尔河流域极端降雨事件评价

IF 1.5 0 ENGINEERING, MULTIDISCIPLINARY
F. Rafi, G. H. Dars, C. Strong, K. Ansari, S. H. Ali
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引用次数: 1

摘要

极端降水事件是最严重的天气灾害之一。由于数据稀缺和地形复杂,估计降水非常具有挑战性,因此对印度河上游流域此类事件的空间格局了解有限。数值天气预报模式可以在很好的分辨率下应用来克服这个问题。应用WRF模式3.8.1版在喀布尔河流域模拟了2010年季风季节(即2010年5月1日至9月16日)的温度和降水。我们认为5月份是一个上升阶段。初始和边界条件来源于美国国家海洋和大气管理局气候预报系统再分析数据。模型采用双嵌套结构,水平分辨率逐渐增加,从d01域的15km向内移动到d02域的5km。利用偏差、百分比偏差、均方根误差和Pearson相关性,将模拟结果与TRMM 3B42以及从巴基斯坦气象部门和水电发展局收集的站点数据进行了比较。结果表明,从d01到d02,模拟降水得到了改善。然而,该模式显示的结果好坏参半,有些站点高估了降水,有些站点低估了降水。模拟降水与TRMM的拟合度总体上优于与台站资料的拟合度。结果表明,WRF模式可用于模拟复杂地形下的强降水。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An Evaluation of the Extreme Rainfall Event of 2010 over the Kabul River Basin using the WRF Model
Extreme precipitation events are among the most severe weather hazards. Knowledge about the spatial patterns underlying such events in the Upper Indus Basin is limited because estimating precipitation is very challenging due to the data scarcity and the complex orography. Numerical weather prediction models can be applied at a fine resolution to overcome this issue. The Advanced Research Weather Research and Forecasting (WRF) model version 3.8.1 was applied over the Kabul River Basin to simulate the temperature and precipitation of monsoon season 2010, i.e., 1st May to 16th September 2010. We considered the May month as a spin-up period. The initial and boundary conditions were derived from the National Oceanic and Atmospheric Administration, Climate Forecast System Reanalysis data. The model was set up by using two-nested domains with increasing horizontal resolution moving inward from 15km on domain d01 to 5km on domain d02. The simulations were compared with TRMM 3B42, and station data collected from the Pakistan Meteorological Department and Water and the Power Development Authority using bias, percentage bias, root mean square error, and Pearson correlation. The results revealed that the simulated precipitation was improved from d01 to d02. However, the model showed mixed results with overestimation of precipitation at some stations and underestimations at others. Simulated precipitation generally agreed better with TRMM than with station data. Overall, the results indicate that the WRF model can be used to simulate heavy precipitation in complex terrain.
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来源期刊
Engineering, Technology & Applied Science Research
Engineering, Technology & Applied Science Research ENGINEERING, MULTIDISCIPLINARY-
CiteScore
3.00
自引率
46.70%
发文量
222
审稿时长
11 weeks
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