NUMERICAL MODELING OF HEAVY SUMMER RAINFALLS WITH DIFFERENT GRID SPACING OF THE REGULAR GRID STEP

Evgeniy M. Sviyazov, A. L. Vetrov
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Abstract

Climate warming is causing an increase in the total moisture content on the planet and in the number of heavy rainfall cases. Many of these result in severe flooding, victims, and destruction of infrastructure. The aim of the study is to establish the possibility of improving the quality of heavy precipitation forecasting by reducing the step of the computational grid in the mathematical model of the atmosphere. The article presents the results of a study of extreme summer precipitation in the Ural Kama region for the period from 1979 to 2015. The statistical characteristics of 37 precipitation cases with an intensity of more than 50 mm in 12 hours were analyzed. Computational experiments were performed on the WRF-ARW regional atmospheric model. The meteorological conditions for the occurrence of heavy rain in town of Gubakha with an extreme intensity of 114,5 mm in 12 hours were taken as a special case for the study. A qualitative assessment of the simulation results showed that for the selected case, the model correctly reproduced the general structure of heavy rains, but significantly shifted it eastward. A quantitative assessment of the forecast quality was conducted for numerical forecast of heavy precipitation based on the WRF-ARW model at a grid step of 3 km and 7,2 km. The quality of the model was evaluated based on the forecast accuracy not only at the measurement point but also in the vicinity within a radius of 50 km. It was found that there was no significant improvement in the quality of the forecast of high-intensity precipitation when switching to a smaller grid step according to both the first and second assessment methods. The results obtained can be taken into account when preparing forecasts of heavy rains occurrence and when developing flood forecast techniques.
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规则网格步长不同格距下夏季暴雨数值模拟
气候变暖正在导致地球上总水分含量的增加和强降雨的次数。其中许多导致了严重的洪水、人员伤亡和基础设施的破坏。研究的目的是通过减少大气数学模型中计算网格的步长,建立提高强降水预报质量的可能性。本文介绍了1979 - 2015年乌拉尔卡马地区夏季极端降水的研究结果。分析了37例12 h 50 mm以上降水的统计特征。对WRF-ARW区域大气模式进行了计算实验。以12 h极端强114,5 mm古巴哈镇暴雨发生的气象条件为特例进行研究。对模拟结果的定性评估表明,对于所选的情况,模型正确地再现了暴雨的一般结构,但显著地向东偏移。对WRF-ARW模式在3 km和7、2 km栅格步长下的强降水数值预报质量进行了定量评价。模型的质量不仅基于测点的预报精度,而且基于50 km半径范围内的预报精度。结果表明,无论是第一种评估方法还是第二种评估方法,当切换到较小格步长时,高强度降水的预报质量都没有显著提高。在准备暴雨预报和发展洪水预报技术时,可以考虑所获得的结果。
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