Disturbances in the wind speed fields due to the Crimean Mountains

IF 0.7 Q4 OCEANOGRAPHY
V. Efimov, O. Komarovskaya
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引用次数: 3

Abstract

Introduction . Influence of the Crimean Mountains on the wind regime in the Crimea region for different seasons and wind directions is considered. Data and methods . Data on the monthly average temperature values on the model levels of the ERA Interim reanalysis [10] for 40 years (1979–2018) and also the results of modeling using the regional numerical model of atmospheric circulation WRF-ARW are used. Results . The fields of surface wind speeds in the Crimea region are considered at the northern and southern directions of the background wind which are close to the normal one in relation to the ridge. Annual variation of buoyancy frequency for the flat regions of the Crimea Peninsula and for its Southern Coast separated from them by the Crimean Mountains is given. The periods of the most probable disturbances in the surface wind fields induced by the Crimean Mountains are revealed. Using the regional atmospheric circulation model WRF-ARW, the wind speed fields for a few typical directions of the background undisturbed wind are simulated. Discussion and conclusions. It is shown that in a spring-summer period (April–June) in the atmosphere over the sea, the conditions required to block the air flow from the south to the Crimean Mountains ridge arise. As a result, an alongshore flow is formed, and the mesoscale zone of speed perturbations springs up. At the northern winds, stable stratification in the boundary layer over the Crimea land areas is observed, on the average, throughout the whole year, except for four summer-autumn months (June–September); significant wind speed disturbances can also develop. However, they are of local character, i.e. concentrated directly near the mountain ridge and over the leeward slope where the velocity disturbances of a bora type are formed in a narrow coastal zone. Repeatability statistics of these two cases of the wind speed field perturbation caused by the mountains is assessed and considered. WRF-ARW model. Acknowledgments: t he investigation was carried within the framework of the state tasks on theme studies of the interaction processes in ocean-atmosphere system
克里米亚山脉引起的风速场扰动
介绍。考虑了克里米亚山脉对克里米亚地区不同季节和风向的风况的影响。数据和方法。利用ERA中期再分析[10]模式40年(1979-2018)月平均气温资料和区域大气环流数值模式WRF-ARW的模拟结果。结果。克里米亚地区的地面风速场考虑的是背景风的南北方向,这两个方向与山脊的正常方向接近。给出了克里米亚半岛平坦地区及其被克里米亚山脉隔开的南部海岸浮力频率的年变化。揭示了由克里米亚山脉引起的地面风场最可能扰动的周期。利用区域大气环流模式WRF-ARW,模拟了几个典型的背景无扰动风方向的风速场。讨论和结论。结果表明,在春夏期间(4 - 6月),海面上空的大气中出现了阻止气流从南部流向克里米亚山脉山脊所需的条件。结果形成了沿岸流,出现了中尺度的速度扰动区。在北风处,除了夏季和秋季的四个月(6月至9月)外,克里米亚陆地地区的边界层平均全年都有稳定的分层;显著的风速扰动也会产生。然而,它们具有局部特征,即直接集中在山脊附近和背风坡上,在狭窄的沿海地带形成了波拉型的速度扰动。评估和考虑了这两种情况下由山脉引起的风速场扰动的可重复性统计。WRF-ARW模型。致谢:这项调查是在海洋-大气系统相互作用过程主题研究的国家任务框架内进行的
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来源期刊
Physical Oceanography
Physical Oceanography OCEANOGRAPHY-
CiteScore
1.80
自引率
25.00%
发文量
8
审稿时长
24 weeks
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