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1.
The horizontal and vertical wind velocity fluctuations were measured using two sonic anemometers at a height of 135 cm above
a snow surface under a transverse snow wave-forming condition. A snow-wave was formed when the wind at a height of 1 m blew
at a speed of more than 7 m s−1 after an approximate accumulation of from 10 to 20 cm of new snow on a snowfield. For example, when a snow-wave had a wavelength
of 10 m and a wave height of 15 to 20 cm, the measured horizontal and vertical velocity components showed that they had a
frequency peak of 0.7 Hz in coherence and co-spectrum corresponding to this wavelength. The results suggest that wind turbulence
and snow-wave formation interact with each other. 相似文献
2.
将2012年5月21日-8月16日广东省湛江市东海岛气象观测站内脉冲激光风廓线仪WINDCUBE V2与气象站内的100 m测风塔进行同步观测试验,在经过观测数据同步性调整、有效性检验和代表性样本筛选基础上,分大小风和有无降雨天气过程,对杯式测风仪、超声风速仪与激光风廓线仪的同步测风数据进行比较,结果显示:脉冲激光风廓线仪与杯式测风仪测量水平风参数的相关性较好,10 min平均风速、风向的线性拟合度均大于0.99,3 s阵风风速的拟合度大于0.96,湍流强度的拟合度大于0.67,风速标准差的拟合度大于0.79;大风情况下,激光风廓线仪对风参数的测量效果更佳。无降雨情况下,激光风廓线仪的测量效果较降雨时略好,10 min降水量小于15 mm的降雨对这款激光风廓线仪的风速、风向、湍流强度、3 s阵风风速的测量没有显著影响,对风速标准差有一定影响。当水平风速增大和有降雨时,激光风廓线仪对垂直速度的测量效果欠佳。该对比分析可为激光风廓线仪观测数据的可靠性提供参考。 相似文献
3.
Morphological characteristics of snow ripples formed by drifting snow were investigated as functions of wind velocity in a cold wind tunnel at -15 °C. Wave-length, wave height and migration rate of snow ripples increased from 5 to 20 cm, 3 to 5 mm and 1 to 8 cm/min, respectively, with increasing wind velocity from 5 to 7 m/s. Measured size distributions of snow particles in snow ripples showed sorting of large particles in ridges, suggesting that the snow ripple migration is caused by creeping of large particles. The snow drift rate caused by creep, that is, by the ripple migration, was estimated to amount, at least, to 6% of the total snow drift rate. 相似文献
4.
利用2008-2014年CFL20G风廓线雷达数据对科尔沁草原高空风场垂直特征及变化进行研究。主要对高空三维风场季节变化的统计学特征、典型高度层上的变化规律及垂直高度上的日变化规律进行分析。分析发现:四季中高空20-40m/s风速出现的频率最大,3000米至18000米科尔沁草原高空以偏西风为主。垂直高度上水平风速呈一波一谷型变化,随着高度的增加,高层水平风速开始增大的时间有所推后。12600米及以下各层平均风速最小的季节为夏季,最大的季节为冬春两季;19000米平均风速最小的月份为12月份,风速最大月份为8月份。垂直速度在5500米以下有明显日变化,1500米和3000米有较为明显的年变化,最大值出现在春夏交接的4-6月份,最小值出现在12月份,5000米以上垂直速度没有明显的年变化。 相似文献
5.
Abstract Airborne measurements of mean wind velocity and turbulence in the atmospheric boundary layer under wintertime conditions of cold offshore advection suggest that at a height of 50 m the mean wind speed increases with offshore distance by roughly 20% over a horizontal scale of order 10 km. Similarly, the vertical gust velocity and turbulent kinetic energy decay on scales of order 3.5 km by factors of 1.5 and 3.2, respectively. The scale of cross‐shore variations in the vertical fluxes of heat and downwind momentum is also 10 km, and the momentum flux is found to be roughly constant to 300 m, whereas the heat flux decreases with height. The stability parameter, z/L (where z = 50 m and L is the local Monin‐Obukhov length), is generally small over land but may reach order one over the warm ocean. The magnitude and horizontal length scales associated with the offshore variations in wind speed and turbulence are reasonably consistent with model results for a simple roughness change, but a more sophisticated model is required to interpret the combined effects of surface roughness and heat flux contrasts between land and sea. Comparisons between aircraft and profile‐adjusted surface measurements of wind speed indicate that Doppler biases of 1–2 m s?1 in the aircraft data caused by surface motions must be accounted for. In addition, the wind direction measurements of the Minimet anemometer buoy deployed in CASP are found to be in error by 25 ± 5°, possibly due to a misalignment of the anemometer vane. The vertical fluxes of heat and momentum show reasonably good agreement with surface estimates based on the Minimet data. 相似文献
6.
Hubert Gall��e Alexandre Trouvilliez C��cile Agosta Christophe Genthon Vincent Favier Florence Naaim-Bouvet 《Boundary-Layer Meteorology》2013,146(1):133-147
For the first time a simulation of blowing snow events was validated in detail using one-month long observations (January 2010) made in Adélie Land, Antarctica. A regional climate model featuring a coupled atmosphere/blowing snow/snowpack model is forced laterally by meteorological re-analyses. The vertical grid spacing was 2 m from 2 to 20 m above the surface and the horizontal grid spacing was 5?km. The simulation was validated by comparing the occurrence of blowing snow events and other meteorological parameters at two automatic weather stations. The Nash test allowed us to compute efficiencies of the simulation. The regional climate model simulated the observed wind speed with a positive efficiency (0.69). Wind speeds higher than 12 m s ?1 were underestimated. Positive efficiency of the simulated wind speed was a prerequisite for validating the blowing snow model. Temperatures were simulated with a slightly negative efficiency (?0.16) due to overestimation of the amplitude of the diurnal cycle during one week, probably because the cloud cover was underestimated at that location during the period concerned. Snowfall events were correctly simulated by our model, as confirmed by field reports. Because observations suggested that our instrument (an acoustic sounder) tends to overestimate the blowing snow flux, data were not sufficiently accurate to allow the complete validation of snow drift values. However, the simulation of blowing snow occurrence was in good agreement with the observations made during the first 20 days of January 2010, despite the fact that the blowing snow flux may be underestimated by the regional climate model during pure blowing snow events. We found that blowing snow occurs in Adélie Land only when the 30-min wind speed value at 2 m a.g.l. is >10 m s ?1. The validation for the last 10 days of January 2010 was less satisfactory because of complications introduced by surface melting and refreezing. 相似文献
7.
Eddy-correlation measurements over snow, wet bare soil, and lake water indicate very small vertical ozone fluxes. Adjustments to the small vertical fluxes are needed to take into account the effect of mean Stefan flow associated with evaporation at the surface and the effects of correlation between density variations and vertical wind fluctuations. For snow, the residual resistance calculated for the surface is about 34 s cm-1, indicating that the maximum deposition velocity is abut 0.03 cm s-1. For cold bare soil well saturated with water, the surface resistance is about 10 s cm-1 (maximum deposition velocity of about 0.1 cm s-1). The highest resistances obtained are for transfer to the surface of Lake Michigan, yielding values near 90 s cm-1 for resistance (0.01 cm s-1 for deposition velocity).Work supported by the U.S. Dept. of Energy and the U.S. Environmental Protection Agency. 相似文献
8.
对我们在南海海域建立的大气边界层观测站的资料进行分析表明,在冷涌和热带气旋(包括强台风)过境的大风期间,在边界层底层10 min平均的水平风速u基本不随高度而变,甚至大都伴随有明显的上升气流w。而且风场脉动中含有强相干性的阵风扰动( v g,频率位于1/60~1/600 Hz频段),以及近于随机性的高频湍流脉动( v t,频率大于1/60 Hz),它们的特性以及w都可以很好地用水平风速u来参数化表示。取实测的(u,w)和脉动 v '= v g+ v t,或取实测的u与参数化的 v g、 v t和w,应用拉格朗日随机模式作数值模拟,结果表明:由破头浪发射出来的浪花和飞沫水滴(半径rp为10~500 μm)有相当大的一部分可以飞离大气底层而进入100 m高以上的大气中,继而对进入大气中的海盐气溶胶通量有重要贡献,不可以被忽略。在水滴的垂直传输过程中,阵风扰动起了极重要的作用,而在w>0且较显著时w更起重要作用。我们对上扬率(可上升至100 m以上高度的水滴数与由海面发射出的水滴数之比)作出了初步的参数化公式,有很高的精度,主要的参量是无量纲量u2/(rqg),其中rp和g分别是水滴半径和重力加速度。 相似文献
9.
一次降雨过程风廓线雷达回波特征 总被引:1,自引:0,他引:1
为应用风廓线雷达监测降水天气,通过对2006年南京地区一次春季降雨过程的边界层风廓线雷达探测数据与自动站雨量数据进行对比分析和相关性统计,研究降水发生、维持和消亡期间风廓线雷达资料的变化特征,分析风廓线雷达垂直速度、速度谱宽与降雨强度之间的相关性。结果表明:当降雨临近时,风廓线雷达水平风廓线上的空洞逐渐消失,当降雨结束时空洞再次出现,且伴随着低空急流的出现降水明显增强。随着降雨的发生,风廓线雷达产品的垂直速度、速度谱宽和折射率结构常数值均明显增大。整个降水期间,550 m高度层以下的垂直速度与降水量存在显著线性负相关,450—950 m高度层之间的速度谱宽与降水量存在显著线性正相关,可见垂直速度、速度谱宽的变化与降水强度关系密切;当垂直负速度变小或速度谱宽变大时,降水增强的可能性增大。研究结果揭示了风廓线雷达垂直速度、速度谱宽与降雨强度之间的内在联系,可为风廓线雷达应用于降雨天气监测提供参考。 相似文献
10.
北京延庆山区降雪云物理特征的垂直观测和数值模拟研究 总被引:1,自引:0,他引:1
基于风廓线雷达、云雷达、粒子谱仪、微波辐射计和自动站等垂直观测设备,结合中尺度数值模式WRF对2017年3月23~24日北京延庆海坨山地区的一次降雪过程进行了观测和数值模拟研究。研究结果表明:垂直探测仪器结合中尺度数值模式可以获得降雪的宏观结构和微物理信息,有助于对降雪的深入研究。此次降雪过程由中高层西南及偏南暖湿气流与低层东南偏冷空气交汇造成动力和水汽辐合抬升形成,4~5 km高度处的风切变有利于降雪的增强。上升气流有助于水汽的输送、冰雪转化以及雪晶凝华、聚合,冰晶数浓度中心对应着上升运动顶部。然而此次降雪云系低层过冷云水含量不足,降雪回波<20 dBZ,回波顶高<7 km,雪花垂直下落速度<2 m s-1,地面降水量大值与低层强回波区对应。降雪粒子谱分布范围较窄,以直径1 mm左右的小粒子为主,相态主要为干雪,基本不存在混合相态。 相似文献
11.
为应用风廓线雷达监测降水天气,通过对2006年南京地区一次春季降雨过程的边界层风廓线雷达探测数据和自动站雨量数据进行对比分析和相关性统计,研究了降水发生、维持和消亡期间风廓线雷达资料的变化特征,分析风廓线雷达垂直速度、速度谱宽与降雨强度之间的相关性。结果表明:当降雨临近时,风廓线雷达水平风廓线上的空洞逐渐消失,当降雨结束时空洞再次出现,且伴随着低空急流的出现降水明显增强。随着降雨的发生,风廓线雷达产品的垂直速度、速度谱宽和折射率结构常数值均明显增大。整个降水期间,550 m高度层以下的垂直速度与降水量存在显著线性负相关,450-950 m高度层之间的速度谱宽与降水量存在显著线性正相关,可见垂直速度、速度谱宽的变化与降水强度关系密切;当垂直负速度变小或速度谱宽变大时,降水增强的可能性增大。研究结果揭示了风廓线雷达垂直速度、速度谱宽与降雨强度之间的内在联系,可为风廓线雷达应用于降雨天气的监测。 相似文献
12.
R. A. Schmidt 《Boundary-Layer Meteorology》1982,23(2):223-246
To estimate the sublimation rate of snow during relocation by wind, sizes and concentration of ice crystal fragments were measured at 6 levels in the lowest 1 m, during ten 10-min runs, in a nocturnal blizzard. Power-law functions of height described the decrease in mean particle diameter and concentration. The vertical gradient of water vapor, measured with a thermocouple psychrometer, was approximately linear from 0.2 to 1.0m above the surface. Evaporation of blowing snow over 3 km of transport distance was estimated to be 39% of transport rate, under conditions of the experiment. 相似文献
13.
Extraordinary blowing snow transport events in East Antarctica 总被引:1,自引:1,他引:0
Claudio Scarchilli Massimo Frezzotti Paolo Grigioni Lorenzo De Silvestri Lucia Agnoletto Stefano Dolci 《Climate Dynamics》2010,34(7-8):1195-1206
In the convergence slope/coastal areas of Antarctica, a large fraction of snow is continuously eroded and exported by wind to the atmosphere and into the ocean. Snow transport observations from instruments and satellite images were acquired at the wind convergence zone of Terra Nova Bay (East Antarctica) throughout 2006 and 2007. Snow transport features are well-distinguished in satellite images and can extend vertically up to 200 m as first-order quantitatively estimated by driftometer sensor FlowCapt?. Maximum snow transportation occurs in the fall and winter seasons. Snow transportation (drift/blowing) was recorded for ~80% of the time, and 20% of time recorded, the flux is >10?2 kg m?2 s?1 with particle density increasing with height. Cumulative snow transportation is ~4 orders of magnitude higher than snow precipitation at the site. An increase in wind speed and transportation (~30%) was observed in 2007, which is in agreement with a reduction in observed snow accumulation. Extensive presence of ablation surface (blue ice and wind crust) upwind and downwind of the measurement site suggest that the combine processes of blowing snow sublimation and snow transport remove up to 50% of the precipitation in the coastal and slope convergence area. These phenomena represent a major negative effect on the snow accumulation, and they are not sufficiently taken into account in studies of surface mass balance. The observed wind-driven ablation explains the inconsistency between atmospheric model precipitation and measured snow accumulation value. 相似文献
14.
城市近地层风特征与污染系数分析 总被引:1,自引:0,他引:1
使用黑龙江省风能资源专业观测网依兰测风塔2010年5月-2011年4月期间10、50、70、100m四层测风数据,对依兰风特征进行分析。结果表明:测风塔各高度风速具有一致的日变化规律,均是白天大,夜间小。随高度升高,风速变化趋势减弱,100m高度与下层显现出不同的变化特征,具有高空风速的日变化特征。垂直气流速度各时刻平均值均为正值,日变化规律与水平风速基本一致,也是白天较大,夜间较小。风廓线指数n值夜间较大,且稳定,均在0.25左右,08时后,随着温度升高,上下层空气能量交换增大,a值迅速减小,12—14时最小,仅为0.11,之后又迅速增大。各高度主导风向一致,随高度增大,主导风向频率升高。各高度污染系数最大值对应的风向一致,随高度增加,污染系数较小的风向区间增加,有利于大气污染物的扩散。因此增加排放高度,可以有效减少城市近地面的大气污染物浓度。 相似文献
15.
提要:利用2013年春季在巴丹吉林沙漠北缘拐子湖地区的沙尘暴加强观测资料,对比分析该地区典型流动沙面晴天、扬沙和沙尘暴三种天气背景下各气象要素的变化特征及差异,同时对沙尘暴过程中近地层风沙活动特征进行分析。结果表明,随风速增加沙尘天气强度逐步提升且沙尘天气来临前风速、风向均表现出明显的调整现象,此后爆发过程中风速、风向相对稳定。随沙尘天气强度的增加气温逐渐减小且沙尘天气过程中地面呈利于沙尘起动的暖干状态,同时地面气压不断升高。悬浮的沙尘会导致拐子湖流动沙地各层地温有减小趋势,但减小程度相对较弱,使沙尘天气下各层地温仍保持良好的梯度变化和正弦型日变化趋势。拐子湖流沙地春季起沙风速为6.5m/s,输沙通量垂直分布状况在20cm左右具有明显的分段现象。地表100cm内总输沙量的50%和90%分别集中在地表20cm和56cm高度以内。观测期间整个5月地表0~100cm高度内的输沙通量为420.96kg/m。 相似文献
16.
利用气象观测站小时雨量、不同探测手段得到的高空风资料,对2016年7月19—20日华北特大暴雨过程中河北南部降雨不同阶段水平风的垂直变化特征进行分析。结果表明:(1)在河北南部,太行山沿山一带到山前平原、平原东部分布着两片短时强降雨区,而前者强度更强,体现了地形迎风坡对降雨的增幅作用。(2)本次过程中,三种探测手段计算的深层垂直风切变具有一致的变化规律。西部山区和山前平原降雨显著增强阶段,环境风维持强深层垂直风切变,相应的u风差也显著增强,利于迎风坡降雨增强;降雨结束时,深层垂直风切变为弱垂直风切变。(3)强降雨阶段,水平风垂直切变矢量基本上呈现单一方向顺时针切变,且低层风垂直切变较大;降雨结束阶段,水平风垂直切变矢量方向变化复杂。(4)太行山脉高度以下的东风不断增强,最大东风分量达到8~28 m?s-1,利于山区和山前降雨的增强。 相似文献
17.
18.
为进一步加深南北气候过渡带上山地丘陵地区的风场认识,利用淮南2015年3月至2016年2月ST(Stratosphere-Troposphere)风廓线雷达的探测资料,分析了该地区20 km高度内风场的变化特征及垂直结构。结果表明:淮河流域850 hPa、700 hPa、500 hPa、100 hPa等压面高度上,风场有明显的垂直变化,风速及其波动幅度随春、夏、秋、冬先减小后增大,且随高度增加,夏季最小、冬季最大的季节规律逐渐增强;风场的垂直分布存在差异,在中低层以下,以小于10 m/s的风为主,风向转换多,中低层以上10~25 m/s的偏西风居多;年平均风场结构为低层以5 m/s北风为主,到2 km左右向西偏转,风速小于10 m/s,在5 km高度处形成15 m/s的西风,且风速持续增大,10 km左右达到25 m/s后逐渐减小,到15 km左右风向顺时针向北偏转,直到20 km附近与低空风场相近。 相似文献
19.
刘成 《沙漠与绿洲气象(新疆气象)》2013,7(2):56-60
利用大连风廓线雷达高时空分辨率风场观测资料,统计2011年雷达站上空各层水平及垂直风速的分布特征.通过分析发现:最大水平风速通常出现在12 km上下,受高空急流的影响,各季节高空最大水平风速出现高度不同,4 km以下高空水平风速随高度的变化各月份存在一定差异,4 km以上至最大风速层,水平风速随高度的升高而增大,最大风速层以上至雷达测量的上限水平风速随高度增加先减小后增大;高空垂直风速在夏季较为明显,秋季次之,冬春季节最小;6月是全年月均垂直风速最大的月份,在500~1300 m高度层存在一个上升气流中心,平均风速大于0.6 m/s,2月各高度平均垂直风速全年最小. 相似文献
20.
An observational analysis of the structures and characteristics of a windy atmospheric boundary layer during a cold air outbreak in the South China Sea region is reported in this paper. It is found that the main structures and characteristics are the same as during strong wind episodes with cold air outbreaks on land. The high frequency turbulent fluctuations(period<1 min) are nearly random and isotropic with weak coherency, but the gusty wind disturbances(1 min相似文献