基于轨迹法的天津市暴雨过程水汽源分析

IF 2 4区 地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES
Kaifang Shi, Qi Lang, Yuefei Huang, Jie Zhao, Haozhi Wang, Guoxin Chen, Qian Zhang, Hang Yin, Yang Su, Peng Wang
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引用次数: 0

摘要

天津是中国四大直辖市之一,是首都北京的东大门,具有重要的社会经济地位。天津河网密布、水系发达、地势平坦,每当暴雨来袭,城市内涝时有发生。本研究基于水汽源归因法,利用 PyTrajector 和 HYSPLIT 软件对 2012-2020 年天津暴雨过程中的水汽进行了源解析。然后,研究了天津暴雨的演变特征。结果表明,天津市暴雨水汽源大致可分为四个方向。西部和西南部是主要水汽源,约占暴雨水汽源的 89%。在大暴雨中,西南方向的水汽贡献率约为 60%,大于暴雨。西南方向是天津暴雨的主要水汽源,对暴雨时的水汽波动有主要影响。在危害性较大的特大暴雨中,来自西南方向的水汽所占比例更大(74.3%)。2012 年天津市年暴雨总降水量比常年偏多,主要原因是来自西南方向的水汽异常增多。这一结果进一步表明,天津市年暴雨降水总量主要受西南方向水汽的影响。该研究揭示了天津大部分暴雨来自西部和西南部方向,但天津的重大暴雨事件尤其受西南方向水汽的影响。这项研究不仅对天津的气象和水资源管理具有重要意义,也为全球城市洪水风险研究提供了宝贵的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Analysis of the water-vapor sources in rainstorm processes in Tianjin city based on the trajectory method

Analysis of the water-vapor sources in rainstorm processes in Tianjin city based on the trajectory method

Analysis of the water-vapor sources in rainstorm processes in Tianjin city based on the trajectory method

Tianjin, one of the four municipalities in China, is the eastern gate of the capital city of Beijing and is of great socioeconomic importance. When rainstorms attack Tianjin, urban flooding often occurs due to the dense river network, well-developed water system and flat terrain. In this study, the source analysis of water vapor in rainstorm processes in Tianjin during 2012–2020 is conducted based on the moisture source attribution method, and the PyTrajector and HYSPLIT softwares. Then, the evolution characteristics of rainstorms in Tianjin are investigated. The results show that the rainstorm water-vapor sources in Tianjin city can be roughly divided into four directions. The west and southwest directions are the main source, which contribute about 89% of the water vapor to the rainstorms. For heavy rainstorm, the water vapor from the southwest direction contributes about 60%, which is larger than that of rainstorm. The southwest direction is the main water vapor source of heavy rainstorm in Tianjin and has the main effect on the water vapor fluctuations during heavy rainstorm. For the more hazardous extraordinary rainstorm, the water vapor from the southwest direction occupies an even larger proportion (74.3%). The annual total rainstorm precipitation in Tianjin city in 2012 was more than that in common years, and this is mainly due to the anomalous increase of water vapor from the southwest direction. This result further indicates that the annual total rainstorm precipitation in Tianjin is mainly influenced by the water vapor from the southwest direction. This study reveals that the majority of rainstorm in Tianjin originates from the western and southwestern directions, but significant heavy rainstorm events in Tianjin are particularly influenced by moisture from the southwestern direction. This research holds crucial implications not only for meteorological and water resource management in Tianjin but also provides valuable insights for global urban flood risk studies.

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来源期刊
Atmospheric Science Letters
Atmospheric Science Letters METEOROLOGY & ATMOSPHERIC SCIENCES-
CiteScore
4.90
自引率
3.30%
发文量
73
审稿时长
>12 weeks
期刊介绍: Atmospheric Science Letters (ASL) is a wholly Open Access electronic journal. Its aim is to provide a fully peer reviewed publication route for new shorter contributions in the field of atmospheric and closely related sciences. Through its ability to publish shorter contributions more rapidly than conventional journals, ASL offers a framework that promotes new understanding and creates scientific debate - providing a platform for discussing scientific issues and techniques. We encourage the presentation of multi-disciplinary work and contributions that utilise ideas and techniques from parallel areas. We particularly welcome contributions that maximise the visualisation capabilities offered by a purely on-line journal. ASL welcomes papers in the fields of: Dynamical meteorology; Ocean-atmosphere systems; Climate change, variability and impacts; New or improved observations from instrumentation; Hydrometeorology; Numerical weather prediction; Data assimilation and ensemble forecasting; Physical processes of the atmosphere; Land surface-atmosphere systems.
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