WRF-ARW模式模拟孟加拉湾热带气旋安潘的初始条件和水平分辨率敏感性

Md Shakil Hossain, Md Abdus Samad, Md. Saddam Hossain, SM Arif Hossen, Md. Asraful Islam, S. Hassan
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引用次数: 1

摘要

以超级气旋风暴安潘(2020)为例,分析了初始条件(IC)和水平分辨率(HR)对热带气旋(tc)强度、路径和登陆预测的敏感性。结果表明,IC和HR对TC模拟有显著影响。减小仿真中的HR会导致系统的相对较高的严重性。该模拟以较短的提前期和较低的HR较好地预测了最小中心压力(MCP)的分布。与实际观测结果相比,缩短提前期模式在预报最大持续风速(MSWS)分布方面具有较高的精度。根据统计分析,在HR为27 km的模拟中,提前时间的持续缩短比其他分辨率模拟的轨迹和登陆位置更好。因此,可以考虑缩短预期和提高模拟分辨率的结合,以便进行正确的路径和登陆预报。达卡大学学报(自然科学版),69(3):202-211,2022 (6)
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Sensitivity of Initial Condition and Horizontal Resolution on Simulation of Tropical Cyclone Amphan over the Bay of Bengal using WRF-ARW Model
Simulation of Super Cyclonic Storm (SuCS) Amphan (2020) has been carried out as a case study to analyze the sensitivity of Initial Condition (IC) and Horizontal Resolution (HR) on the intensity, track, and landfall predictions of the Tropical Cyclones (TCs). The results suggest that the IC and HR have a significant impact on TC simulations. Diminishing the HR in simulation results in a comparatively higher severity of the system. The simulation with a reduced lead time and a comparatively smaller HR has forecasted the Minimum Central Pressure (MCP) distribution reasonably well. In comparison to the observations, the reduced lead time model run with higher resolution has forecasted the Maximum Sustained Wind Speed (MSWS) distribution precisely. According to the statistical analysis, the continual reduction of lead time in simulation with the HR of 27 km has simulated better track and landfall positions than other resolutions. Thus, the combination of reduced lead time and higher resolution in simulation may be considered for the proper track and landfall forecasting. Dhaka Univ. J. Sci. 69(3): 202-211, 2022 (June)
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