用WRF大气模式模拟西伯利亚西部的恶劣天气事件

IF 0.9 Q4 OPTICS

Atmospheric and Oceanic Optics Pub Date : 2025-04-29 DOI:10.1134/S1024856024701331

S. Yu. Zolotov, A. S. Loginov

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引用次数: 0

摘要

目前西伯利亚西部恶劣天气事件的强度和频率正在增加。气象研究与预报（WRF）大气模式使研究这些现象成为可能，特别是对它们的发生进行预警。本文定义了一套WRF参数化方案，提供了对灾害性天气事件发生原因的全面分析，并监测灾害性天气事件的进一步发展。这套方案保证了WRF模式在恶劣天气条件下的正确运行。本文详细介绍了2019年4月29日至30日和2020年12月25日至26日在西伯利亚西部发生的两次大风、强降雨、长时间暴雨和异常寒冷天气等严重天气事件。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Simulation of Severe Weather Events in Western Siberia Using WRF Atmospheric Model

The intensity and frequency of severe weather events are currently increasing in Western Siberia. Weather Research and Forecasting (WRF) atmospheric model makes it possible to study these phenomena, in particular, for warning about their occurrence. This article defines a set of WRF parameterization schemes which provide a full-fledged analysis of the causes of occurrence and monitor the further development of severe weather events. This set of schemes ensures correct operation of WRF model under conditions corresponding to severe weather events. The paper details two weather events with such severe phenomena as very strong wind, very heavy rainfall, prolonged heavy rain, and abnormally cold weather, which occurred in Western Siberia on April 29–30, 2019, and December 25–26, 2020.

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来源期刊

Atmospheric and Oceanic Optics OPTICS-

CiteScore

2.40

自引率

42.90%

发文量

期刊介绍： Atmospheric and Oceanic Optics is an international peer reviewed journal that presents experimental and theoretical articles relevant to a wide range of problems of atmospheric and oceanic optics, ecology, and climate. The journal coverage includes: scattering and transfer of optical waves, spectroscopy of atmospheric gases, turbulent and nonlinear optical phenomena, adaptive optics, remote (ground-based, airborne, and spaceborne) sensing of the atmosphere and the surface, methods for solving of inverse problems, new equipment for optical investigations, development of computer programs and databases for optical studies. Thematic issues are devoted to the studies of atmospheric ozone, adaptive, nonlinear, and coherent optics, regional climate and environmental monitoring, and other subjects.