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新疆克拉玛依强下坡风暴的机理研究 总被引:1,自引:0,他引:1
利用美国中尺度数值模式 WRF 对2013年3月7—8日克拉玛依强风进行了模拟,对下坡风发生、发展和结束3个阶段的三维结构特征进行了分析,并由此提出克拉玛依强下坡风的形成机制模型:上游地区出现中高层西南风、低层西北风并伴有强冷平流的配置,当风速不断增大时,气流能够翻越加依尔山在背风坡侧形成重力波,重力波相位向气流上游方向倾斜产生非线性效应,促进了波不稳定区域的形成并导致波破碎,形成湍流活跃层,不断把上层的能量向下传播;克拉玛依中低层形成三层夹心的大气层结稳定度分布,出现明显的过渡气流带从而导致强下坡风的形成;南北风分量在低层和中层符号相反,形成了临界层,不断吸收上层波能量并向地面传送,强下坡风暴不断维持发展。最后利用2006—2012年克拉玛依33个强下坡风过程中的探空观测资料对提出的形成机制进行了验证。 相似文献
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Severe downslope windstorms occurred on 5 April 2005 in the Taebaek Mountain Range, located in the eastern coast of Korea, are examined using the Weather Research and Forecasting (WRF) model. Strong winds are observed at Gangneung and Yangyang during two separate periods with a rapidly decreasing period in between. These downslope windstorms are reproduced in the simulation reasonably well, although the rapidly decreasing surface wind speed after the second windstorm could not be captured at Yangyang. It is found that the generation mechanisms of the downslope windstorms in these two periods are somewhat different. The severe wind in the first period is likely due to the reflection of the mountain waves from a critical level that locates near z = 8–9 km. Upward-propagating waves and reflected downward-propagating waves interact constructively in a duct between the critical level and the surface, resulting in strong surface wind. In the second period, the hydraulic-jump theory can be applied in that the wave breaking above the downstream induces a well-mixed region, and severe downslope wind is developed beneath this turbulent region as the streamlines descend along the downstream. Simultaneous lee wave structure is also reproduced during the second windstorm period. The sensitivity of the downslope wind speed to the change in the land-cover map showed that the absorption of trapped lee waves in the boundary layer reduces the downslope wind speed significantly after the second windstorm at Gangneung, improving the model performance, although with no significant impact at Yangyang. 相似文献
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盆地环流型及冷湖的形成和消散的数值研究 总被引:3,自引:0,他引:3
本文建立了一个三维原始方程数值模式,模拟三维盆地中的环流,重点讨论在热力强迫环流型的转变过程中能量场的动量场的配置情况及环流演变过程。模拟结果表明,夜间地面强烈的辐射冷却过程引起盆地各坡面冷迳流的发展,盆地中成为冷空气湖,逆温层结建立。日出后对流边界层从大气低层向上发展,逆温从底部随之消蚀,仅在上层存在了夜间逆温残余,即所谓稳定核,上坡风在对流边界层发展,而稳定核内仍维持夜间下坡风环流。 相似文献
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On formation of convective roll vortices by internal gravity waves: A theoretical study 总被引:3,自引:0,他引:3
Dr. J. G. Sang 《Meteorology and Atmospheric Physics》1991,46(1-2):15-28
Summary The linearized atmospheric equations system is solved analytically in a two layer model. The solutions show that the thermal disturbance located at the interface can induce internal gravity wave, which propagates downstream in the stable layer and brings about flow disturbances in the lower unstable layer. Motion of roll vortices with flow pattern similar to that found in the convective cloud street forms in the lower part of the upper layer and the upper part of the lower layer. If proper content of water vapor exists the cloud lines presenting small angle with the mean wind appear at the top of the lower layer. The effects of the wind speed and the temperature structures of the atmosphere in the lower convective layer and the overlying stable layer on the characteristics of the roll vortices are also discussed in this study.With 7 Figures 相似文献
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Zonda wind is a typical downslope windstorm over the eastern slopes of the Central Andes in Argentina,which produces extremely warm and dry conditions and creates substantial socioeconomic impacts.The aim of this work is to obtain an index for predicting the probability of Zonda wind occurrence.The Principal Component Analysis(PCA)is applied to the vertical sounding data on both sides of the Andes.Through the use of a binary logistic regression,the PCA is applied to discriminate those soundings associated with Zonda wind events from those that are not,and a probabilistic forecasting tool for Zonda occurrence is obtained.This index is able to discriminate between Zonda and non-Zonda events with an effectiveness close to 91%.The best model consists of four variables from each side of the Andes.From an eventbased statistical perspective,the probability of detection of the mixed model is above 97%with a probability of false detection lower than 7%and a missing ratio below 1%.From an alarm-based perspective,models exhibit false alarm rate below 7%,a missing alarm ratio lower than 1.5%and higher than 93%for the correct alarm ratio.The zonal component of the wind on both sides of the Andes and the windward temperature are the key variables in class discrimination.The vertical structure of Zonda wind includes two wind maximums and an unstable lapse rate at midlevels on the lee side and a wind maximum at 700 h Pa accompanied by a relatively stable layer near the mountain top. 相似文献
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利用WRF模式和GFS资料对乌鲁木齐机场一次东南大风天气进行了预报和地形敏感性试验。模式预报的结果表明:WRF模式对东南大风的起风时间、持续时间、风速大小等方面有较强的预报能力。地形敏感性试验表明:1乌鲁木齐市区与机场300m左右的高度差对机场风速的影响很大;2机场上空下沉运动的强弱与东南大风的强弱有很好的对应关系;3机场东南大风的风速变化并不总是与峡谷两端气压梯度力的变化同步。此次东南大风天气的产生是低空动量下传、狭管效应和下坡风共同作用的结果。动量下传主要出现在海拔2000m以下的高度,下坡风主要出现在海拔935m以下的高度。 相似文献
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Impact of the Diurnal Cycle of the Atmospheric Boundary Layer on Wind-Turbine Wakes: A Numerical Modelling Study 总被引:1,自引:1,他引:0
The wake characteristics of a wind turbine for different regimes occurring throughout the diurnal cycle are investigated systematically by means of large-eddy simulation. Idealized diurnal cycle simulations of the atmospheric boundary layer are performed with the geophysical flow solver EULAG over both homogeneous and heterogeneous terrain. Under homogeneous conditions, the diurnal cycle significantly affects the low-level wind shear and atmospheric turbulence. A strong vertical wind shear and veering with height occur in the nocturnal stable boundary layer and in the morning boundary layer, whereas atmospheric turbulence is much larger in the convective boundary layer and in the evening boundary layer. The increased shear under heterogeneous conditions changes these wind characteristics, counteracting the formation of the night-time Ekman spiral. The convective, stable, evening, and morning regimes of the atmospheric boundary layer over a homogeneous surface as well as the convective and stable regimes over a heterogeneous surface are used to study the flow in a wind-turbine wake. Synchronized turbulent inflow data from the idealized atmospheric boundary-layer simulations with periodic horizontal boundary conditions are applied to the wind-turbine simulations with open streamwise boundary conditions. The resulting wake is strongly influenced by the stability of the atmosphere. In both cases, the flow in the wake recovers more rapidly under convective conditions during the day than under stable conditions at night. The simulated wakes produced for the night-time situation completely differ between heterogeneous and homogeneous surface conditions. The wake characteristics of the transitional periods are influenced by the flow regime prior to the transition. Furthermore, there are different wake deflections over the height of the rotor, which reflect the incoming wind direction. 相似文献
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Summary ?We have investigated the effects of shear and sharp gradients in static stability and demonstrated how a mountain wave and
its associated surface winds can be strongly influenced. Linear theory for two-dimensional, nonrotating stratified flow over
an isolated mountain ridge with positive shear and constant static stability shows that the horizontal wind speeds on both
the lee and upslope surfaces are suppressed by positive shear. The critical F(=U/Nh where U is the basic wind speed, N the Brunt-Vaisala frequency, and h the mountain height) for the occurrence of wave breaking decreases when the strength of the positive shear increases, while
the location for the wave-induced critical level is higher in cases with larger positive shear. The linear theory is then
verified by a series of systematic nonlinear numerical experiments. Four different flow regimes are found for positive shear
flow over a two-dimensional mountain. The values of critical F which separate the flow regimes are lower when the strength of the positive shear is larger. The location of stagnation aloft
from numerical simulations is found to be quite consistent with those predicted by linear theory.
We calculate the strongest horizontal wind speed on the lee surface (U
max), the smallest horizontal wind speed on the upslope surface (U
min), the reflection (Ref), and the transmission (Tran) coefficients for different combinations of the stability ratio between
the upper and lower layers (i.e. and z
1 (interface height) in a two-layer atmosphere from linear analytical solutions. Both Ref and Tran are found to be functions
of log() but not the interface height (z
1). Ref is larger when is much different from 1, no matter whether it is larger or smaller than 1. However, Tran decreases when log() increases and approaches 0 when log() is large. The magnitude of the largest U
max (smallest U
min) increases (decreases) as the absolute value of log() increases. It is found that the largest U
max occurs when the nondimensional z
1 is near for cases with a less stable upper layer or when z
1 is near for cases with a more stable upper layer. These results are confirmed by nonlinear numerical simulations. We find that linear
theory is very useful in qualitative analysis of the possibility of high-drag state for different stability profiles. The
location of stagnation aloft in a two-layer atmosphere from numerical simulations agrees very well with those predicted by
linear theory.
The above findings are applied to investigate the Boulder severe downslope windstorm of 11 January 1972. We find that the
windstorm cannot develop if the near mountain-top inversion is located at a higher altitude (e.g., km). However, if there exists a less stable layer right below the tropopause, the windstorm can develop in the absence of
a low-level inversion. These results indicate the importance of partial reflection due to the structured atmosphere in influencing
the possibility of severe downslope windstorms, although partial reflection may not be the responsible mechanism for the generation
of windstorms.
Received September 25, 1999/Revised February 9, 2000 相似文献
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The article considers the reasons for the underestimation of the wind speed by the WRF-ARW model when simulating downslope windstorms in the Russian Arctic. Simulation results for the Tiksi windstorm, for which sensitivity tests were carried out, appeared to be weakly dependent on the initial and boundary conditions, topography resolution, and boundary layer parameterization. Wind speed underestimation was mostly related to improper land use and the highly overestimated roughness length, which are used in the model. Reduction of the roughness length in accordance with the observations leads not only to a quantitative change in the wind speed in the boundary layer, but to qualitative changes in the dynamics of the flow. Wind underestimation in simulations with the overestimated roughness was caused by the jet stream unrealistically jumping over the lee slope and wake formation in the station area, while jet stream stayed near the surface and propagated to the station area in simulations with the modified roughness length. Modification of land use and roughness length in Tiksi and other regions where downslope windstorms are observed (Novaya Zemlya, Pevek, Wrangel Island) led to a decrease in wind speed modelling error by more than 2.5 times. 相似文献
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本文利用中尺度模式WRF(V3.9)对2016年12月7日成都东部(龙泉山)一次污染过程下的山地—平原风环流进行了模拟,旨在探讨冬季污染天气下山地—平原风环流的结构和演变特征。此外,通过减少气溶胶光学厚度(AOD,Aerosol Optical Depth)的敏感性试验探究气溶胶污染对山地—平原风环流的影响。结果表明:冬季污染大气条件下成都平原地区存在显著逆温。龙泉山南北长、东西窄且高度较低,由于东、西坡辐射能量的不均匀分布和背景风的强迫,上午、凌晨和夜间均出现越山下坡风环流,上午强度较强,凌晨和夜间强度较弱。午后开始出现平原风环流,最大影响范围为山体宽度的3~4倍,17:00(当地标准时,下同)左右结束。各阶段环流在南北方向上差异较大,越山下坡风环流在南段最强,中段最弱;中、南段山体较低窄,平原风环流易被湍流掩盖,北段平原风环流最为明显。AOD减小后辐射及地表热通量均有所增加,中、南段湍流更加旺盛,边界层显著抬升且降低时间滞后,山体与平原间感热通量差异增加,北段平原风环流增强、持续时间增长。 相似文献
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Characteristics of some frontal stratiform precipitation events south of the alpine chain during MAP
Summary This paper examines the flow conditions associated with frontal widespread and moderate precipitation over the Lago Maggiore Target Area (LMTA) of the Mesoscale Alpine Programme, and observed during the intensive observation periods (IOPs) 4 (30 September 1999), 8 (21 October), 9 (23 October) and 15 (6 November). The flow organization that led precipitation maxima to occur away from the relief instead of being concentrated on the windward southern slopes of the Alps is investigated from three ground-based Doppler radars.Different aspects of this organization are noted. Post-frontal flow had a primary role in IOPs 4 and 15, and the intensity and vertical extension of the incoming flow modulated the precipitation intensity and duration over the LMTA. In IOPs 4 and 9, westerly-to-northwesterly downslope flow opposed the south–southeasterly moist inflow, but the larger thickness and intensity of the inflow in IOP 9 yielded longer rain duration. Also the occurrence of such downslope flow on the lee side was accompanied by foehn effects. In IOP 15, the southerly inflow was strong enough to rise over a deep and strong northerly downslope post-frontal cold flow (in connection with a deep lee cyclone) which was probably enhanced by melting and evaporation of hydrometeors, and behaved like a severe downslope wind. The IOP 8 event was a case of blocked flow and slow frontal passage, and was accompanied with persistent stratiform precipitation over the LMTA. The blocking was due to the stable character of the east–southeasterly incoming flow which favored flow deflection (barrier flow) along the southeastward-facing slopes of the Alps. It is also found that gravity waves activity during IOPs 8 and 9 modulated the precipitation distribution over the LMTA. 相似文献
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The atmospheric stable boundary layer (SBL) with a low-level jet is simulated experimentally using a thermally stratified
wind tunnel. The turbulence structure and flow characteristics are investigated by simultaneous measurements of velocity and
temperature fluctuations and by flow visualization. Attention is focused on the effect of strong wind shear due to a low-level
jet on stratified boundary layers with strong stability. Occasional bursting of turbulence in the lower portion of the boundary
layer can be found in the SBL with strong stability. This bursting originates aloft away from the surface and transports fluid
with relatively low velocity and temperature upward and fluid with relatively high velocity and temperature downward. Furthermore,
the relationship between the occurrence of turbulence bursting and the local gradient Richardson number (Ri) is investigated.
The Ri becomes larger than the critical Ri, Ricr = 0.25, in quiescent periods. On the other hand, the Ri number becomes smaller than Ricr during bursting events. 相似文献
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新疆克拉玛依地区位于背风坡,长期受翻山气流形成的局地大风影响。该地区日常大风预报业务主要依托克拉玛依气象局的精细化数值预报系统,为进一步完善该系统的预报效果,本文开展了重力波拖曳参数化方案应用试验,对比分析了三组试验方案:不开启重力波拖曳、只开启外层区域重力波拖曳以及两重嵌套设置下均开启重力波拖曳的结果。试验结果表明:在克拉玛依大风预报个例中,对于山区地形背风坡处的克拉玛依站,不启动重力波拖曳会导致风速偏大和起风时间较早;开启外层重力波拖曳方案可以延迟克拉玛依站起风时间,两重区域均开启可以进一步延迟该站的起风时间,使起风时间更接近实况;对于非山区地形背风坡处的站点,在内层开启重力波拖曳会导致一定的负效果;对内层区域的统计检验结果表明不开启重力波拖曳,会使地形复杂区域风场预报存在一定的正偏差,在外层开启重力波拖曳会使正偏差有一定改善,而两重嵌套均开启重力波拖曳方案会导致非地形陡峭区域的负偏差增加。综合全区域内大风预报检验结果表明,只在外层开启重力波拖曳会获得最小的误差和较好的预报效果。 相似文献
16.
Young-Hee Lee 《Asia-Pacific Journal of Atmospheric Sciences》2012,48(3):243-252
We have analyzed eddy covariance data collected within open canopy to investigate the influence of non-flat terrain and wind direction shear on the canopy turbulence. The study site is located on non-flat terrain with slopes in both south-north and east-west directions. The surface elevation change is smaller than the height of roughness element such as building and tree at this site. A variety of turbulent statistics were examined as a function of wind direction in near-neutral conditions. Heterogeneous surface characteristics results in significant differences in measured turbulent statistics. Upwind trees on the flat and up-sloping terrains yield typical features of canopy turbulence while upwind elevated surface with trees yields significant wind direction shear, reduced u and w skewness, and negligible correlation between u and w. The directional dependence of turbulence statistics is due that strong wind blows more horizontally rather than following terrain, and hence combination of slope related momentum flux and canopy eddy motion decreases the magnitude of Sk w and r uw for the downslope flow while it enhances them for the upslope flow. Significant v skewness to the west indicates intermittent downdraft of northerly wind, possibly due to lateral shear of wind in the presence of significant wind direction shear. The effects of wind direction shear on turbulent statistics were also examined. The results showed that correlation coefficient between lateral velocities and vertical velocity show significant dependence on wind direction shear through change of lateral wind shear. Quadrant analysis shows increased outward interaction and reduced role of sweep motion for longitudinal momentum flux for the downslope flow. Multi-resolution analysis indicates that uw correlation shows peak at larger averaging time for the upslope flow than for the downslope flow, indicating that large eddy plays an active role in momentum transfer for the upslope flow. On the other hand, downslope flow shows larger velocity variances than other flows despite similar wind speed. These results suggest that non-flatness of terrain significantly influences on canopy-atmosphere exchange. 相似文献
17.
Summary This study addresses simulation of the local bora wind and its properties as reflected on typical trajectories. Trajectory calculations are implemented in the Eta Model. The Eta Model has a vertical coordinate which permits a step-like representation of mountains and quasi-horizontal coordinate surfaces, the so-called eta coordinate. A realistic real data simulation of a bora wind case in achieved using the model with a 28 km horizontal resolution and 16 layers in the vertical. Numerical experiments with different mountain heights and shapes in the bora wind region are performed. These are motivated by observational indications and theoretically based expectations that a certain intermediate mountain elevation is required for generation of downslope windstorms with bora wind properties. Three-dimensional trajectories over various mountains mimicing real mountains but differing primarily in elevation are calculated and analysed. The maximum bora wind speed is predicted as expected through three-dimensional channels in the step mountain representations. The results illustrate and are in agreement with the observational evidence that mountain barriers of the elevation of about 1000 m are a necessary requirement for the occurrence of the bora-type downslope windstorms.With 10 Figures 相似文献
18.
Study on Physical Mechanism of Influence on Atmospheric Boundary Layer Depth in the Arid Regions of Northwest China 总被引:1,自引:0,他引:1 
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下载免费PDF全文 Using the sounding data of wind, temperature, and humidity in the boundary layer and micrometeorological data on the earth's surface observed in the same period in Dunhuang arid region of Northwest China,this paper researches characteristics of potential temperature, wind, and humidity profiles, confirms the structure and depth of thermodynamic boundary layer in Dunhuang region, and analyzses the relationship of depth of thermodynamic boundary layer with surface radiation, buoyancy flux as well as wind speed and
wind direction shear in the boundary layer. The results show that the maximum depth of diurnal convective boundary layer is basically above 2000 m during the observational period, many times even in excess of 3000 m and sometimes up to 4000 m; the depth of nocturnal stable boundary layer basically maintains within a range of 1000-1500 m. As a whole, the depth of atmospheric boundary layer is obviously bigger than those results observed in other regions before. By analyzing, a preliminary judgement is that the depth
of atmospheric thermodynamic boundary layer in Dunhuang region may relate to local especial radiation characteristics, surface properties (soil moisture content and heat capacity) as well as wind velocity shear of boundary layer, and these properties have formed strong buoyancy flux and dynamic forcing in a local region which are fundamental causes for producing a super deep atmospheric boundary layer. 相似文献
19.
Frequency of Boundary-Layer-Top Fluctuations in Convective and Stable Conditions Using Laser Remote Sensing 总被引:1,自引:0,他引:1
Giovanni Martucci Renaud Matthey Valentin Mitev Hans Richner 《Boundary-Layer Meteorology》2010,135(2):313-331
The planetary boundary-layer (PBL) height is determined with high temporal and altitude resolution from lidar backscatter
profiles. Then, the frequencies of daytime thermal updrafts and downdrafts and of nighttime gravity waves are obtained applying
a fast Fourier transform on the temporal fluctuation of the PBL height. The principal frequency components of each spectrum
are related to the dominant processes occurring at the daytime and nighttime PBL top. Two groups of cases are selected for
the study: one group combines daytime cases, measured in weak horizontal wind conditions and dominated by convection. The
cases show higher updraft and downdraft frequencies for the shallow, convective boundary layer and lower frequencies for a
deep PBL. For cases characterized by strong horizontal winds, the frequencies directly depend on the wind speed. The temporal
variation of the PBL height is determined also in the likely presence of lee waves. For nighttime cases, the main frequency
components in the spectra do not show a real correlation with the nocturnal PBL height. Altitude fluctuations of the top of
the nocturnal boundary layer are observed even though the boundary layer is statically stable. These oscillations are associated
with the wind shear effect and with buoyancy waves at the PBL top. 相似文献
20.
本文利用NCEP分析资料、多普勒雷达观测资料、常规气象观测资料以及数值模拟结果,对2016年7月30日发生在华北、辽宁附近的一次强飑线过程中后向入流的演变及成因进行研究。结果表明,此次飑线发生在中纬度新生冷涡槽前,低层有水汽辐合区和地面辐合线对应,且过程中伴有较强的对流有效位能释放。飑线后部中层(冷涡槽后)一直存在α中尺度西风大值带,此大风速带造成了上下层相反的水平涡度,并形成喇叭形环流结构,该结构不同于经典飑线结构。飑线后部水平方向上水平涡度分布不均匀,并形成水平涡度旋度上正下负的分布,即导致中层强风区上部上升运动、下部下沉运动,该下沉运动引发飑线中的后向入流和低层强风速带形成。在中层,飑线的后部边缘始终有较强的风速大值带伴随飑线的发展,该大值带的形成与对流强弱和非热成风涡度有关,对流过程中低层非热成风涡度为负,中上层非热成风涡度为正,导致飑线后部中层西风加速和低层西风减速,有利于后向入流的发展和飑线的维持,当对流减弱时,非热成风涡度与后向入流均减弱。文中给出了后向入流形成演变的概念模式。 相似文献