基于 ECMWF 再分析数据的南海上空与季风、大气和海洋状况有关的低层大气导管

Ning Yang, Debin Su, Luyao Sun, Tao Wang
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摘要

大气导管是一种高折射传播条件,经常发生在海上,对雷达和通信设备有很大影响。本文利用 ECMWF 从 1980 年到 2022 年的再分析数据,分析了南海低层大气管道(LAD)的时空分布及其发生率随季风的变化。此外,研究还讨论了风道发生与大气和海洋条件之间的关系。研究结果表明,南中国海的风动力学对风球事件有重大影响。在低纬度干旱高发期,湿度梯度形成的风道是主要机制。在季风来临之前,吕宋岛西部的山脉阻挡了东风,导致山脉西岸气温高、蒸发强。与此同时,山脉东部地区气温低、湿度大,导致吕宋岛西部地区大气分层,上层干燥寒冷,下层温暖潮湿,湿度随高度的增加而明显下降。季风开始后,从印度支那半岛吹向海洋的空气是干冷的,但受到高海拔地区的阻挡。这削弱了低层潮湿大气在海上的水平流动性,导致印度支那半岛东部沿海地区的大气分层。这种分层导致上层干燥寒冷,下层温暖潮湿。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Lower Atmospheric Ducts Over the South China Sea Related to the Monsoon, Atmospheric and Ocean Conditions Based on ECMWF Reanalysis Data
Atmospheric ducting is a highly refractive propagation condition that frequently occurs at sea and significantly impacts radar and communication equipment. This paper analyzes the spatiotemporal distribution of Lower Atmospheric Ducts (LAD) in the South China Sea (SCS) and the variation of their occurrence rate with the monsoon by using reanalysis data from the ECMWF from 1980 to 2022. Additionally, the study discusses the relationship between ducting occurrences and atmospheric and oceanic conditions. The results indicate that wind dynamics in the SCS significantly impact ducting incidents. During the high-incidence period of LAD, humidity gradient-constructed ducts are the primary mechanism. Before the onset of the monsoon, the mountains in the western part of Luzon Island obstruct the easterly wind, resulting in high temperatures and strong evaporation along the western coast of the mountains. Meanwhile, low temperatures and humidity prevail in the eastern part of the mountains, it leads to a stratified atmosphere characterized by dry and cold upper layers and warm and humid lower layers in the western part of Luzon Island, which causes a distinct decrease in humidity with height. After the onset of the monsoon, the air from the Indochina Peninsula to the ocean is dry and cold, but the high-altitude area blocks it. This weakens the horizontal mobility of the low-level humid atmosphere over the sea, resulting in atmospheric stratification in the eastern coastal area of the Indochina Peninsula. This stratification leads to dry and cold upper layers and warm and humid lower layers.
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