香港国际机场水龙卷的分析及数值模拟

IF 1.2 4区地球科学 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES

Meteorologische Zeitschrift Pub Date : 2021-01-01 DOI:10.1127/metz/2021/1078

P. Chan, K. Hon, P. Robinson, K. Kosiba, J. Wurman, Q.S. Li

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引用次数: 3

摘要

香港国际机场附近发生的龙卷风的风场是利用机场运行的密集多普勒光探测和测距（LIDAR）系统网络的双多普勒分析以及附近的地面气象站观测记录的。双多普勒风与地面观测相结合，分析了水龙卷的风结构。将模拟风移线和相关涡流的数值天气预报系统的性能与观测结果进行了比较。水龙卷和其他漩涡沿着风移线形成（到达的东北季风和背景西风/海风之间的交汇），强度相当弱，表面阵风约为10米/秒。然而，机场密集的气象传感器网络为这些涡流提供了前所未有的表面采样。该数值模型相当好地捕捉到了辐合线和涡流，并可能向航空天气预报员提供早期警报，提醒他们机场附近可能出现小型水龙卷型涡流，这可能会对航空安全产生影响。

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Analysis and numerical simulation of a waterspout at the Hong Kong International Airport

The wind ﬁeld of a waterspout that occurred near the Hong Kong International Airport was documented using dual-Doppler analysis from a dense network of Doppler Light Detection and Ranging (LIDAR) systems operated at the airport, and nearby surface weather station observations. The dual-Doppler winds are used in tandem with surface observations to analyze the wind structure of the waterspout. The performance of a numerical weather prediction system simulating the windshift line and the associated vortices is compared to the observations. The waterspout and the other vortices formed along a windshift line (convergence between the arriving northeast monsoon and background westerly/sea breeze) and were rather weak, with the surface wind gusting to about 10 m/s. However, the dense network of meteorological sensors at the airport provided unprecedented surface sampling of these vortices. The numerical model captured the convergence line and the vortices reasonably well and may provide earlier alerting to the aviation weather forecasters about the possible occurrence of small waterspout-type vortices near the airport, which may have implications to aviation safety.

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来源期刊

Meteorologische Zeitschrift 地学-气象与大气科学

CiteScore

2.80

自引率

8.30%

发文量

审稿时长

6-12 weeks

期刊介绍： Meteorologische Zeitschrift (Contributions to Atmospheric Sciences) accepts high-quality, English language, double peer-reviewed manuscripts on all aspects of observational, theoretical and computational research on the entire field of meteorology and atmospheric physics, including climatology. Manuscripts from applied sectors such as, e.g., Environmental Meteorology or Energy Meteorology are particularly welcome. Meteorologische Zeitschrift (Contributions to Atmospheric Sciences) represents a natural forum for the meteorological community of Central Europe and worldwide.