研究严重气旋生成过程中的动能预算和水汽输送

IF 5.7 3区 环境科学与生态学 Q1 WATER RESOURCES
Abdulhaleem H. Labban
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引用次数: 0

摘要

这项工作旨在研究 2022 年 11 月 23 日至 25 日在沙特阿拉伯北部和中部地区造成强降雨的气旋生成的动能预算和水汽输送情况。对动能(KE)及其预算的研究得出结论,大部分动能集中在 400 hPa 及以上,与气旋发生期间副热带喷流的强大活动相吻合。跨气流产生的 KE 是主要的能量来源。在气旋生成过程中,从网格到亚网格尺度的 KE 耗散是主要的能量汇,而 KE 的水平通量发散则是 KE 的来源。通过对气旋生成过程中水汽通量分量的属性和可感知水的散布对水汽输送的研究发现,在对流层下层,水汽通量的旋转分量主要从两个区域带来水汽:一个区域横跨阿拉伯海,包括红海南部、埃塞俄比亚北部和苏丹中部;另一个区域包括地中海和北大西洋。中间层的主要水汽源位于非洲中部上空,其源头可追溯到大西洋、阿拉伯海和印度洋。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Studying the kinetic energy budget and moisture transport during a severe case of cyclogenesis

Studying the kinetic energy budget and moisture transport during a severe case of cyclogenesis

This work aimed to investigate the kinetic energy budget and moisture transport of a case of cyclogenesis that causes intense rains over north and middle parts of Saudi Arabia on November 23–25, 2022. The study of kinetic energy (KE) and its budget concludes that the majority of the KE was concentrated at 400 hPa and above, coinciding with the powerful activity of the subtropical jet stream during the period of cyclogenesis. The KE generation through cross-contour flow serves as a major energy source. During the cyclogenesis process, KE dissipation from grid to subgrid scales is a major energy sink, while the horizontal flux divergence of KE acts as a source of KE. The study of moisture transport through the attributes of moisture-flux components and the dispersion of perceptible water during the cyclogenesis reveals that within the lower tropospheric layer, the rotating component of moisture flux brings moisture from two primary regions: One zone spans the Arabian Sea and includes the south Red Sea, north of Ethiopia, and central Sudan; the other region covers the Mediterranean Sea and the North Atlantic. The primary moisture source in the middle layer is located over central Africa, with origins traced back to the Atlantic Ocean, Arabian Sea, and Indian Ocean.

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来源期刊
Applied Water Science
Applied Water Science WATER RESOURCES-
CiteScore
9.90
自引率
3.60%
发文量
268
审稿时长
13 weeks
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