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1.
利用2018年1月1日至12月31日在北京国家综合气象观测实验基地获得的风廓线雷达资料和同时期在河北香河的华北香河全大气层野外科学观测研究站获得的多普勒声雷达资料,比较分析北京城区和远郊区的低层(0~600 m)大气风场特征。结果表明:水平风速随高度增加而增大,同一高度层,远郊区的平均水平风速大于城区,且受湍流活动影响,城区和远郊区水平风速日变化趋势均为白天小于夜间。春、夏季城区风向受局地山谷风影响显著,以偏西南偏南气流为主,城区和远郊区秋冬季受冷空气活动影响,以西北风为主,且水平风向日变化特征具有季节性差异。远郊区低层大气垂直速度分布特征四季相同,正、负速度出现频率相当,日变化趋势为单峰型;城区冬春季有差异,在390 m高度以下正速度出现频率明显大于负速度,且日变化趋势在四季差异较大。北京城区和郊区风场特征差异与其他特大城市相比无特殊性,主要受大气环流、局地地形、下垫面环境等因素影响。 相似文献
2.
M. A. Novitskii D. E. Gaitandzhiev N. F. Mazurin M. K. Matskevich 《Russian Meteorology and Hydrology》2011,36(9):580-589
Turbulence characteristics in the surface layer of the coastal area of Akhtopol (Bulgaria) under conditions of the breeze
circulation are measured. The measurements were carried out at the level of 4.5 m by means of three-component ultrasonic anemometer.
To estimate the wind regime in the atmospheric boundary layer, the sodar data and synoptic charts were used. All turbulent
characteristics except the correlation coefficient of the friction flow have an appreciable daily course in the case of the
sea breeze. In the frontal zone, some characteristics demonstrate sometimes short-term variations of their numerical values.
The sea-land front of the breeze circulation is effectively detected from the measurements of wind speed, wind direction,
and temperature in the surface layer. It is also possible to judge about the breeze circulation type and turbulence structure
in this layer on the basis of these measurements. 相似文献
3.
湛江东海岛二月海陆风环流特征研究 总被引:1,自引:0,他引:1
利用2011年2月湛江东海岛风廓线雷达资料,系统分析了湛江东海岛2月平均风场特征及海陆风特征,结果表明:2月湛江东海岛150 m高度处以东偏北出现频率最大,在E、ENE和NE三个方位的风向出现频率之和为66.6%,偏西七个方位的风向出现频率之和仅为1%。以SSW方位为界,偏东风与偏西风的出现频率差异明显。各整点的月平均风速1:00—15:00变化较小,均在1 m/s左右波动;15:00—20:00风速及风速波动都较大,最大值出现在16:00时,为2.1 m/s。2011年2月中只有2日与14日两日符合海陆风日条件,两日共同海风时段为13:00—20:00,持续7 h;陆风时段为2:00—7:00,持续5 h。海风平均风速为2.1 m/s,陆风平均风速为0.8 m/s,海风平均风速明显大于陆风风速。海风与陆风环流垂直高度相差甚小,约1.2 km,风速随高度变化趋势均为先增后减;海风最大风速出现在750 m高度处,陆风出现在500 m高度处,500~750 m高度区间海风环流强度明显强于陆风环流。2 km之上为均匀一致的系统性西风环流。 相似文献
4.
M. A. Novitskii N. F. Mazurin L. K. Kulizhnikova O. Yu. Kalinicheva L. A. Tereb D. R. Nechaev V. L. Sapronov 《Russian Meteorology and Hydrology》2011,36(10):693-699
The real characteristics of the MFAS sodar industrially produced by Scintec AG (Germany) are given. The paper presents a wider
range of altitudes as compared with the papers published before as a result of using the meteorological mast with the height
of 310 m and longer duration of practically continuous testing embracing different weather conditions in the period from July
to November 2008. During the comparison, the 10-min averaging time for the wind speed and direction is used. The comparison
of the data of acoustic sounding and contact measurement methods indicates that the sodar provides reliable information on
the vertical profiles of average wind speed within the considered altitude range up to 300 m except the cases of heavy rainfalls
and low wind speed. 相似文献
5.
利用北部湾海域一个大型气象浮标站获取的台风"贝碧嘉"过程实测数据,分析了该台风过境时风浪变化特征。分析结果表明:台风的风速时程变化曲线呈"M"形双峰分布,台风眼壁区风速最大,前眼壁区风速大于后眼壁区,前眼壁区和后眼壁区最大风速分别为22.6m/s和20.8m/s;台风眼区气压和风速最小,波高和波周期最大,其中眼区最大风速为2.7m/s,最大波高为5.4m,最大波周期为5.5s;波高最大值出现时间滞后风速最大值40min;台风眼区以外的波高与风速正相关;在台风从浮标站南侧经过期间,风向和波向均沿着顺时针方向旋转,其中风向和波向10min最大旋转角度分别为50°和150°;风向与波向不在同一个方向,两者之间的夹角平均为171°。 相似文献
6.
研究巢湖流域流场特征对于认识该地区热量、水汽交换和水流运动规律具有重要意义。利用2006年合肥、肥东、巢湖、庐江站以及姥山岛自动气象站的风场资料,分析了巢湖流域典型站点的风速和风向变化特征。结果表明,陆面站点年平均风速为2.17m/s,湖面站点风速为2.41m/s。所有站点春夏季风速大于秋冬季,陆上风速具有明显的日变化,白天风速大于夜间,而湖面风速日变化较不显著。陆面站点风向季节变化明显,春夏季以偏南风为主,秋冬季以偏北风为主,春夏季的风向日变化特征较秋冬季明显,湖面站风向没有明显的季节变化。陆面站点不同程度地受到湖陆风的影响,距离湖面较近的站点受到的影响较大。湖面和陆面站点风向差距平与气温差距平的日变化保持一致,表明湖陆温差是影响巢湖流域湖陆风的关键因子。 相似文献
7.
受城市化、探测环境变化等人为因素影响,部分气象站风速序列存在不均一性,在使用这类气象站的风速资料时必须进行订正。本文以东山气象站为例,应用测站受建筑物影响前后各5 a的风速资料及探测环境历史沿革资料,利用计算流体力学方法(CFD)研究建筑物对气象站测风数据的影响。结果表明:建筑物与测风杆的相对位置不同,建筑物对测风的影响程度亦不同,测站北面建筑物是影响该站偏北风风速观测的主要因素;研究不同风速下建筑的影响,可得模拟结果与输入风速间呈线性关系,并由此建立风速订正关系式,订正后基本消除了建筑物对N方位风速的影响;订正受建筑物影响较小的NNE方位风速需考虑其他障碍物的影响。本文通过试验,验证了CFD方法可用于定量评估建筑物对测风的影响,从而重建受建筑物影响台站的风速序列。 相似文献
8.
Nicholas G. Prezerakos 《Boundary-Layer Meteorology》1986,36(3):245-266
The characteristics of the sea breeze in the Attica region of Greece, in which Athens is located, have been studied for occasions of weak synoptic-scale pressure gradient. The analysis is based on synoptic observations from six meteorological stations, three on the coast and three inland. The three inland stations and one of the coastal stations lie almost in a straight line at different distances from the coast. For each meteorological station, the basic characteristics of the sea breeze were determined, i.e.,
- The mean number of sea-breeze days for each calendar month.
- The monthly mean wind speed for each synoptic hour.
- The times of onset and cessation of the sea breeze.
- The monthly vector mean wind, and its constancy ‘Constancy’ is defined as 100{itV{inr}/V{ins}}, where {itV{inr}} is the magnitude of the vector mean wind, and {itV{ins}} is the scalar mean wind speed. See Brooks and Carruthers (1953). (In this paper, the factor 100 is not used.) for each synoptic hour.
- For days on which there was a sea breeze at Helliniko (the coastal reference station), the percentage number of days on which there was also a sea breeze at the given station.
9.
V. P. Yushkov R. D. Kuznetsov M. A. Kallistratova 《Russian Meteorology and Hydrology》2008,33(10):624-631
Results of measurements of mean wind speed profiles and direction during two years in the center of the city of Moscow are presented. These measurements were performed with a Doppler acoustic profiler (sodar), which was used for continuous monitoring of the wind speed within the height range from 40 to 250–500 m. The averaged seasonal mean profiles are presented along with other observational data, including diurnal cycle parameters, wind speed and direction frequencies at chosen levels, and frequencies and duration of strong winds and calm weather. 相似文献
10.
Igor Petenko Giangiuseppe Mastrantonio Angelo Viola Stefania Argentini Ilaria Pietroni 《Boundary-Layer Meteorology》2012,143(1):125-141
Some characteristics of wavelike motions in the atmospheric boundary layer observed by sodar are considered. In an experiment
carried out in February 1993 in Milan, Italy, Doppler sodar measurements were accompanied by in situ measurements of temperature
and wind velocity vertical profiles using a tethered balloon up to 600 m. The oscillations of elevated wavy layers containing
intense thermal turbulence, usually associated with temperature-inversion zones, were studied by using correlation and spectral
analysis methods. The statistics of the occurrence of wavelike and temperature-inversion events are presented. The height
distributions of Brunt–Vaisala frequency and wind shear and their correlation within elevated inversion layers were determined,
with a strong correlation observed between the drift rate of the wavy layers and the vertical velocity measured by Doppler
sodar inside these layers. Spectral analysis showed similarities regarding their frequency characteristics. The phase speed
and propagation direction of waves were estimated from the time delay of the signals at three antennae to provide estimates
of wavelength. Moreover, wavelengths were estimated from the intrinsic frequency obtained from sodar measurements of the Doppler
vertical velocity and oscillations of wavy turbulent layers. The two wavelength estimates are in good agreement. 相似文献
11.
This study conducted meteorological simulations in northern Colombia by analyzing different planetary boundary layer (PBL) schemes available in the numerical Weather Research and Forecasting (WRF) model. The study area included three nested domains with horizontal resolutions of 18 km, 6 km, and 2 km, with 38 vertical levels. The evolution and structure of the PBL were analyzed during the driest months (March, April, and May 2016) and in regions with the highest particulate matter concentrations. Sensitivity analysis of the WRF model was performed with two local and two non-local PBL schemes. The results were validated using observations of the surface air temperature, relative humidity, and surface wind speed collected from three meteorological stations in the area. The PBL heights were experimentally determined using radiosonde data provided by a station located in the center of the study area. Variations in PBL heights were estimated using linear regression methods and minimization of statistical errors for the bulk Richardson number, as well as analysis of vertical temperature and wind profiles. The WRF model reliably reproduced the daily values and diurnal cycles of temperature, relative humidity, and wind speed within the PBL and accounted for the influence of topography and sea breezes. Horizontal heat advection dominates the upwelling of air masses when sea breezes are active. The onshore wind direction starts to change from east to northwest, implying a decay in the land breeze regime. All schemes overestimate the mixing height and tend to underestimate surface air temperature values at night. All show wetter conditions and underestimate wind speed. Although the non-local Yonsei University (YSU) scheme shows the best performance, it also shows the largest sources of errors when determining the behavior of the surface layer during stable conditions. Relative humidity and wind speed estimates provided by the local Mellor‐Yamada‐Nakanishi‐Niino (MYNN) scheme were closer to those recorded at the meteorological stations. 相似文献
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为了研究风阵性特征,尤其是在受台风影响时湍流特征对安全开发利用风能资源的影响,利用江苏沿海5座测风塔2009年6月—2012年11月的梯度风观测数据,分析了近地层风阵性基本特征,并筛选了7个对江苏产生较大影响的台风,包括罕见的正面登陆台风达维(1210),分析台风影响下风阵性特征。研究发现:江苏沿海地区低层的风脉动性比高层强,10 m高度的年平均阵风系数和湍流强度分别为1.50和0.20;海陆分布明显影响风阵性,离岸风的湍流强度明显大于向岸风;当风速等级小于6级时,风阵性随风速增大而一致性减小,之后则稳定少变;在台风中心附近,受风速、风向快速多变的影响,湍流强度和阵风系数均远大于台风外围和没有台风影响的情况,湍流强度和阵风系数在30~50 m高度之间增加,在6~7级风时出现风阵性的局部峰值区。 相似文献
14.
M. A. Novitskii L. M. Khachaturova L. K. Kulizhnikova M. K. Matskevich 《Russian Meteorology and Hydrology》2007,32(3):168-175
On the basis of wind direction measurements with 1-s discreteness at the meteorological tower VMM-310 in the town of Obninsk, maximum fluctuations of wind direction are obtained with 10-s averaging over limited time intervals that correspond to the transport of pollutant puffs at distances about 10 km from the source at altitudes up to 300 m. Average values of maximum fluctuations of wind direction decrease with increasing wind speed, level of measurements, and stratification stability. Examples are presented of distributions of maximum fluctuations of wind direction as dependent of these factors. Parameters are given of distributions of maximum fluctuations of wind direction at six levels under different wind speeds and different atmospheric stability. The empirical distributions are approximated by Weibull distribution, and parameters of the latter are presented for separate levels. The results obtained can be used for estimation of an angular size of an area of possible pollution under different conditions of atmospheric stratification, wind speed, and levels of transport of an instantaneous puff of pollutants for the pollutant cloud motion up to a distance of 10 km from the source. 相似文献
15.
利用WRF模式分别对沿海及山地条件下风电场风速进行高分辨数值模拟,并对其误差特征进行分析,结果表明:1)WRF模式对复杂地形条件下的风速模拟性能良好,模拟值较好地体现天气尺度的周期变化;2)沿海及山地条件下模拟与观测的误差特征各不相同。模式静态数据未能显现沿海的小岛,并且低估了山地测风塔所在的海拔,导致沿海平均模拟风速偏大,山地平均模拟风速偏小;3)分析不同风向的归一化均方根误差,沿海陆风情况下,下垫面相对复杂,误差明显增大;沿海海风情况下,下垫面均一,误差明显减小;4)仅作单个风电场周边数百平方千米的模拟,采用一台12核的服务器进行WRF模式的并行计算可满足48 h短期预测的时效性。仅仅提高模拟的网格分辨率,并不一定能提升模拟的准确性。 相似文献
16.
孙蕾 《沙漠与绿洲气象(新疆气象)》2014,8(2):65-69
风是一个对测点环境变化较为敏感的气象要素,测站迁站、环境变化、仪器更换等因素均会导致风速序列的非均一性,从而使一地风资料缺乏真实性和可信度。阿拉山口是我国一个著名风门,并且阿拉山口站经历过多次迁站和仪器更换,因此对阿拉山口风资料的均一性检验很有必要,本文利用M-K突变检验法、标准差以及方差显著差异分析等方法对阿拉山口风速序列进行均一性检验,得出:阿拉山口站54 a平均风速序列在2004年发生突变,突变后风速大幅减小。2001年的迁站没有造成风速突变,且经过检验新、旧站风速资料可以合并统计;2004年更换自动测风仪所测风速比人工站大,与2004年后风速突然减小相反;阿拉山口站与周边对比站风速变化曲线在2004年后是反相的,分析可知风速突变的原因不是由仪器更换、气候变化直接导致,经调查分析与2004-2005年阿拉山口地区在气象站上风方大面积种植防风林带有关。 相似文献
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M. A. Lokoshchenko L. I. Alekseeva K. I. Akhiyarova 《Russian Meteorology and Hydrology》2016,41(7):455-465
Nonperiodic vertical and temporal variations in wind direction in the lower 500-meter air layer related to synoptic conditions are studied using the long-term data of acoustic remote sensing by the MODOS sodar at Moscow State University. Average values of wind shear to the right (clockwise) with time as a result of the passage of atmospheric fronts are 55° for cold fronts, 40° for warm fronts, and 45° for occlusion fronts. In some cases the clockwise wind shear may reach 180° per 30 minutes and 720° per several hours. The wind shear to the left with time is usually observed if the northern periphery of anticyclones or the ridge axis pass by. It takes more time than the clockwise wind shear does. Dramatic variations in wind direction with height including synchronous opposite air flows at different heights are observed in the zones of fronts, axes of ridges and troughs (if they are inclined), and cols. The vertical wind shear may reach 250° in the lower 300-meter air layer. Thunderstorms in Moscow are usually accompanied by the average wind speed increase by 1 m/s during 30-40 minutes after their beginning. 相似文献
20.
L&#; Naiping Li Shiming Chen Yanjuan Chen Jingnan Zheng Yueming 《Acta Meteorologica Sinica》1987,1(1):96-104
In this paper,a comparison is made of the Doppler sodar wind measurement with the in-situ measurements on a 325 m meteorological tower.The results show that when the ratio of signal to noise is larger than 1,the mean wind speeds and directions obtained from the two techniques are well correlated,thus their profiles are close to each other.The mean value and root mean square of vertical velocity measured by the Doppler sodar are a little larger than those measured by a sonic anemometer at a height of 85 m,which is in agreement with the analysis by Gaynor et al.(1983).We notice that there are some differences in the observational results between the Doppler sodar and insitu measurements,especially when comparing the values measured at each time.Therefore,it is important to analyze the reason for the differences and to make corrections to the Doppler sodar measurements. 相似文献