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1.
By analysis of observation data, this paper demonstrates that pollution particles could reduce surface wind speed through
blocking solar radiation to the ground. The comparation between temperature at the lowland meteorological station Xi’an and
that over the nearby highland station Mt. Hua suggests that surface solar radiation at Xi’an is reduced due to the increasing
anthropogenic aerosols. The reduced surface energy suppresses the atmospheric instability and convective flows, and thus the
downward transfer of faster winds aloft is reduced. Consequently, wind speeds near surface are weakened. This reduction of
surface winds is shown by the significant reverse trends of wind speeds over the two stations at different elevations. The
aerosols’ effects on winds are also manifested in the trends of radionsonde wind speed. The decreased surface winds in Xi’an
have also reduced local pan evaporation. 相似文献
2.
Ying Jiang Yong Luo Zongci Zhao Shuwang Tao 《Theoretical and Applied Climatology》2010,99(3-4):421-430
Based on two observational data sets in China from 1956 to 2004, wind speed changes are analyzed. The annual mean wind speed (MWS), days of strong wind (SWDs), and maximum wind (MW) all show declining trends over broad areas of China. Only in the southeastern Tibetan Plateau and the regions from the Great Bend of the Yellow River southward to Yunnan and Guangxi Provinces wind speeds are not significantly reduced, but rather, in partial, these regions’ winds speeds are slightly increased. The regions with declining trends match the areas with relatively strong observed winds and the regions without significant declining trends match the areas with light observed winds. In the meantime, the regions with relatively strong winds correspond to areas of reduced days of SWDs. Trends for both increasing intensities and for the number of days of light winds both impact the installation of wind energy facilities. These may be advantageous to the development of wind energy in different regions. Urbanization, the change of anemometers, or relocation of stations are factors that are mildly responsible for the decreasing trend of MWS. The main reason for the decreasing trend is that under the background of global warming, the contrasts of the sea level pressure, and near-surface temperature between the Asian continent and the Pacific Ocean have become significantly smaller, and the east Asian trough has shifted eastward and northward, and has weakened as well. Both East Asian winter and summer monsoons are decreasing, and all of these impacts have resulted in declines of MWS in China. 相似文献
3.
为了研究大气污染对太行山中部地区地表风的影响,我们对阳泉、榆社(高山站),石家庄、邢台(平原站)4个站点1966~2005年间的能见度、近地面温度、近地面风速数据进行了统计计算与趋势分析。结果显示:在平原站能见度相对山坡站下降更加明显的背景下,平原站的近地面温度、近地面风速、850hPa风速都呈下降趋势;而山坡站的近地面温度、近地面风速呈上升趋势。分析表明:(1)由于气溶胶的辐射效应与冷却效应,抑制了垂直通量的上下传输,致使平原站下午的近地面气温呈下降趋势,平原站和高山站的地表风速呈相反的变化趋势。(2)平原站850hPa (与高山站高度相近)风速呈现下降趋势,印证了高山站的近地面风速增加是气溶胶的辐射效应减弱了垂直能量交换造成的。 相似文献
4.
YANG Xingguo QIN Dahe ZHANG Tingjun KANG Shichang QIN Xiang LIU Hongyi 《Acta Meteorologica Sinica》2010,24(6):680-698
Ground-based measurements are essential for understanding alpine glacier dynamics, especially in remote
regions where in-situ measurements are extremely limited. From 1 May to 22 July 2005 (the spring-summer
period), and from 2 October 2007 to 20 January 2008 (the autumn-winter period), surface radiation as well
as meteorological variables were measured over the accumulation zone on the East Rongbuk Glacier of Mt.
Qomolangma/Everest at an elevation of 6560 m a.s.l. by using an automatic weather station (AWS). The
results show that surface meteorological and radiative characteristics were controlled by two major synoptic
circulation regimes: the southwesterly Indian monsoon regime in summer and the westerlies in winter. At the
AWS site on the East Rongbuk Glacier, north or northwest winds prevailed with high wind speed (up to 35 m
s-1 in January) in winter while south or southeast winds predominated after the onset of the southwesterly
Indian monsoon with relatively low wind speed in summer. Intensity of incoming shortwave radiation was
extremely high due to the high elevation, multiple reflections between the snow/ice surface and clouds, and
the high reflective surrounding surface. These factors also caused the observed 10-min mean solar radiation
fluxes around local noon to be frequently higher than the solar constant from May to July 2005. The mean
surface albedo ranged from 0.72 during the spring-summer period to 0.69 during the autumn-winter period.
The atmospheric incoming longwave radiation was greatly affected by the cloud condition and atmospheric
moisture content. The overall impact of clouds on the net all-wave radiation balance was negative in the Mt.
Qomolangma region. The daily mean net all-wave radiation was positive during the entire spring-summer
period and mostly positive during the autumn-winter period except for a few overcast days. On monthly
basis, the net all-wave radiation was always positive. 相似文献
5.
南岳高山站1953—2010年风的气候特征分析 总被引:2,自引:0,他引:2
利用1953--2010年南岳高山站风观测资料,采用趋势分析、矢量分解、小波分析及M-K突变分析等方法,分析了南岳站风的气候变化特征。结果表明:(1)南岳山盛行风具有明显的季节变化,春夏盛行西南风,秋冬盛行北风。(2)年平均风速呈显著减弱趋势,减小速率为-0.25m·^-1/10年,四季中夏季变率最大,冬季变率最小,夏、冬季分别从20世纪70年代后期和80年代后期开始风速发生了明显减弱。风矢量分解后显示,经、纬向风速均呈减弱趋势,经向风速的减小速率远大于纬向,南、北风分量风速都在减弱,北风分量风速减小速率明显大于南风分量,西、南风分量仅在夏季显著减弱,而北风分量在春、秋、冬季都呈显著减弱趋势。分析还发现,南岳山风场年代际变化特征显著,年以及冬季平均风速16年周期振荡在20世纪90年代后发生了明显转折,与同时期的大气环流变化趋势基本一致。 相似文献
6.
We analyzed the frequency distribution characteristics of wind speeds occurring at different offshore sites within a range of 0–200 km based on the sea surface wind data captured via buoys and oil platforms located along the east coast of Guangdong Province. The results of the analysis showed that average wind speed measured for each station reached a maximum in winter while minima occurred in summer, corresponding to obvious seasonal variation, and average wind speed increased with offshore distance. The prevailing wind direction at the nearshore site is the easterly wind, and the frequency of winds within 6–10 m s–1 is considerable with that of winds at > 10 m s–1. With the increase of the offshore distance, the winds were less affected by the land, and the prevailing wind direction gradually became northerly winds, predominately those at > 10 m s–1. For areas of shorter offshore distance (< 100 km), surface wind speeds fundamentally conformed to a two-parameter Weibull distribution, but there was a significant difference between wind speed probability distributions and the Weibull distribution in areas more than 100 km offshore. The mean wind speeds and wind speed standard deviations increased with the offshore distance, indicating that with the increase of the wind speed, the pulsation of the winds increased obviously, resulting in an increase in the ratio of the mean wind speed to the standard deviation of wind speed. When the ratio was large, the skewness became negative. When a relatively great degree of dispersion was noted between the observed skewness and the skewness corresponding to the theoretical Weibull curve, the wind speed probability distribution could not be adequately described by a Weibull distribution. This study provides a basis for the verification of the adaptability of Weibull distribution in different sea areas. 相似文献
7.
利用我国基本和基准气象台站1956—2005年的一日4次风向和风速资料, 对近50年我国风向变化做了尝试性分析。分析发现:我国大部分地区年最大风向频率呈减小趋势, 其中西北、华南和西南地区最大风向频率减小趋势最为显著, 只有西部个别地区略有增加; 全国大部分地区年最大风向频率对应的风速均呈明显的减小趋势。同时, 年最大风向频率对应的风速减小趋势比年平均风速的减小趋势更为显著, 最大风向频率对应的风速减小是平均风速减小的主导因素; 我国冬季主要盛行的偏北风和夏季主要盛行的偏南风都呈明显的减小趋势。偏北风(冬季)和偏南风(夏季)的减小主要是亚洲冬季风和夏季风减弱造成的。 相似文献
8.
利用逐小时风速观测资料以及台风年鉴资料,分析了2008~2014年登陆我国大陆地区的51次热带气旋(TC)的地面风场分布特征,包括TC登陆期间大陆地面风场演变和大风分布特征、海岛站和内陆站的风速差异以及海拔对风力造成的影响等。结果表明:6级及以上大风主要发生在距离TC中心300 km内、TC强度达到台风(TY)以上时,并主要位于TC移动方向的右侧,尤其是右前象限;华南区TC风场分布主要由在此区域登陆的TC(Ⅰ类)造成,较大风速区包括广东西南部沿海、雷州半岛附近和海南西部沿岸;华东区TC风场分布主要由在此区域登陆的TC(Ⅱ类)造成,杭州湾出海口以及浙闽沿海是较大风速区;6级及以上大风广泛分布在华南和华东沿海,6~7级地面大风高频站主要位于杭州湾附近,8级及以上地面大风高频站点在杭州湾和福建沿海分布比广东西南部更为密集;TC登陆前后均可能造成大风,大风出现时间与站点至TC中心的距离密切相关;同等强度TC在海岛站造成的风速比陆地站更大,对高海拔站点造成的风力大于低海拔站点。本文研究结论对于TC大陆地面风场的预报具有一定参考价值。 相似文献
9.
基于台站观测资料,评估了欧洲中期天气预报中心(ECMWF)最高时空分辨率的第五代大气再分析资料(ERA5)对1979~2018年间中国大陆区域10 m高度风速的气候特征及其变化趋势的再现能力,并同步对比分析了ERA5资料100 m高度风速的特征和长期趋势。结果表明,ERA5资料10 m和100 m风速在空间分布、年—季节—月尺度演变的气候特征方面与台站观测非常一致,10 m风速气候态空间相关系数达到0.66。观测和再分析资料均显示,中国近地层风速呈现出显著的区域性特征,风速大值区主要分布在内蒙古、东北地区西部、新疆北部以及青藏高原西部地区,上述区域的风速季节差异也相对明显,春季风速最大。台站观测、ERA5资料10 m和100 m全国平均风速在4月达到最大值,分别为2.6、3.0、4.5 m s–1,8月为最小值,分别为2.0、2.4、3.5 m s–1。从月平均序列来看,ERA5资料的10 m风速较台站观测偏高0.3~0.5 m s–1,而100 m的风速较10 m风速整体偏高1.2~1.4 m s–1。在风速变化方面,台站观测风速在中国陆地区域整体呈下降趋势–0.4 m s–1(39 a)–1,春季下降趋势最显著[–0.5 m s–1(39 a)–1],且1979~1992年冬季风速降幅最大[–0.7 m s–1(14 a)–1],2013年以后风速逐渐增强。ERA5资料两个高度层的风速在整个中国区域均没有明显的长期变化趋势,4个季节风速变化趋势的空间分布与观测也存在差异,100m风速的长期变化趋势与10 m一致但变化幅度大于10 m风速。总之,ERA5资料对中国大陆区域气候平均风速具有较好的再现能力,但无法呈现台站观测风速的长期变化趋势。 相似文献
10.
阵风特性研究是大风预报和服务的基础。基于2011-2013年浙江省自动气象站逐日逐10 min测风资料,分析了浙江省陆地和近海海面冷空气、热带气旋和强对流大风的阵风系数特征。结果表明:冷空气和热带气旋大风阵风系数空间分布基本相同,大风主要发生在近海海面和沿海地区,海面阵风系数一般小于1.5,等值线平行于海岸线且自西向东逐渐减小,陆地阵风系数一般大于2.0,山区可超过3.0,表现出地形对阵风系数的增强作用。强对流大风阵风系数明显高于业务规范平均值,发生地点遍及浙江省各地,但发生概率超过10%的站点主要位于沿海地区和近海海面。风向基本不影响阵风系数空间分布。冷空气和热带气旋站点阵风系数与海拔高度有较高正相关性。模糊聚类分析发现:浙江省400 m以上山区站与70 m以下的低海拔站点在阵风系数特征上分属不同空间类型;基于逐步回归建立站点阵风系数预报模型,检验表明:模糊聚类可帮助提高模型阵风系数预报能力。 相似文献
11.
台风“莫拉克”影响期间浙江大风成因分析 总被引:1,自引:0,他引:1
利用常规资料、浙江省自动站加密资料、NCEP/NCAR1°×1°每日4次再分析资料和多普勒天气雷达资料对2009年第8号台风“莫拉克”影响期间浙江大风的成因进行了分析。此次台风大风影响具有影响时间早、持续时间长、影响范围大和大风强度强的特点。副热带高压快速加强西进是造成台风大风提早出现的主要原因之一。鞍型场、3个台风相互影响使得“莫拉克”台风移速减慢,导致台风大风对浙江沿海的影响时间增长。“莫拉克”登陆福建后其西北侧华北高压以及东南侧海上高压的存在使得地面气压梯度维持,导致大风影响时间增长和影响范围增大。垂直方向环流将高层动量下传导致低层风速猛增。多普勒天气雷达径向速度产品VCP21进行速度退模糊后可以作为台风大风分布范围和极大风速预测的一个参考依据,预测时其在沿海海面效果要较内陆好。 相似文献
12.
对2017年春季黑龙江省大、小兴安岭林区的6个代表站点10 m风场进行降尺度分析,并结合观测数据对比分析了WRF模式和CALMET降尺度模式的10 m风速、风向预报结果。结果表明:两模式逐小时风速预报与观测的相关系数为0.5-0.7,且随着风速的增加,模式的预报准确率逐渐提高,夜间的风速预报偏差较大,进入白天后,偏差明显减小。WRF模式对风速变化趋势的预报效果优于CALMET模式,与观测的风速相关性更高,而CALMET模式对较大风速的预报效果优于WRF模式。在风向预报方面,WRF和CALMET的风向模拟与观测风向均有较好的一致性,模式预报准确率较高的两个风向也刚好对应各站的盛行风向。同时,本文用回归方法对日平均风速进行订正发现,订正后各站的日平均风速预报准确率平均提高了50%,具有较好的业务应用价值。 相似文献
13.
城市化对石家庄站近地面风速趋势的影响 总被引:1,自引:0,他引:1
利用1972—2012年石家庄城市站和4个乡村站地面风速资料,采用城乡对比方法,对石家庄城市站地面风速序列中的城市化影响进行分析,结果表明,石家庄站年和季节平均地面风速和平均10 min最大风速的长期下降趋势,主要是由城市化因素引起。具体结论如下:(1)石家庄站年和四季平均风速、平均10 min最大风速和大风日数均呈极显著的减少趋势,年平均减少速率分别为-0.15 (m/s)/10a、-1.05 (m/s)/10a和-2.90 d/10a;乡村站年平均风速呈微弱下降趋势,年平均10 min最大风速减少较为明显,年大风日数减少趋势非常显著,减少速率分别为-0.02 (m/s)/10a、-0.21 (m/s)/10a和-2.19 d/10a。(2)石家庄站年平均风速下降趋势中的城市化影响为-0.13 (m/s)/10a,城市化影响非常显著,城市化贡献率达到86.0%。该站春、夏、秋、冬季平均风速变化的城市化影响分别为-0.16 (m/s)/10a、-0.10 (m/s)/10a、-0.13 (m/s)/10a和-0.15 (m/s)/10a,城市化贡献率分别为82.8%、87.6%、88.6%和85.4%。(3)石家庄站年平均10 min最大风速变化趋势中的城市化影响为-0.84 (m/s)/10a,城市化贡献率为79.7%;春、夏、秋、冬季平均10 min最大风速变化趋势中的城市化影响分别为-0.94 (m/s)/10a、-0.80 (m/s)/10a、-0.60 (m/s)/10a和-1.01 (m/s)/10a,城市化贡献率分别达到90.4%、78.6%、64.9%和79.1%。(4)城市化对石家庄站年大风日数减少的影响不显著,但冬季大风日数减少仍明显与城市化过程有关。 相似文献
14.
利用1981—2014年我国资料齐全的93个高空气象观测站(距离雷达300、600、900 m高度)的探空风资料,按照气象地理区划,借助GIS分析了边界层内不同高度风速及其趋势的时空变化,得到以下结论:300~900 m,东北和华北地区累年平均风速较大,西南和西北地区累年平均风速较小;边界层内各高度同一地区平均风速的月变化趋势基本一致,但各地区季节风速变化不同,同一地区月平均风速的年较差随高度上升而增大;300 m.各地区年平均风速均显著减小:在600和900 m.华北、西北、华中地区年平均风速呈增加趋势,东北地区年平均风速呈减小趋势,但均未通过显著性水平检验;各高度年平均风速空间分布均为东北地区较大,尤其大兴安岭和东北平原地带;从沿海到内陆,由东至西风速逐渐减小;在300 m.全国年平均风速以减小趋势为主;在600 m,全国大部分地区年平均风速呈增加趋势,尤其是中部、西北和华东沿海地区;在900 m高度,全国年平均风速变化趋势呈现由边界向内部的包围态势,中心地区呈增加趋势,边界地区均呈减小趋势,但是通过显著性水平检验的地区不多。 相似文献
15.
16.
Changes in Wind Speed and Extremes in Beijing during 1960--2008 Based on Homogenized Observations 总被引:3,自引:0,他引:3
Daily observations of wind speed at 12 stations in the Greater Beijing Area during 1960–2008 were homogenized using the Multiple Analysis of Series for Homogenization method. The linear trends in the regional mean annual and seasonal (winter, spring, summer and autumn) wind speed series were-0.26,-0.39,-0.30,-0.12 and-0.22 m s-1 (10 yr)-1 , respectively. Winter showed the greatest magnitude in declining wind speed, followed by spring, autumn and summer. The annual and seasonal frequencies of wind speed extremes (days) also decreased, more prominently for winter than for the other seasons. The declining trends in wind speed and extremes were formed mainly by some rapid declines during the 1970s and 1980s. The maximum declining trend in wind speed occurred at Chaoyang (CY), a station within the central business district (CBD) of Beijing with the highest level of urbanization. The declining trends were in general smaller in magnitude away from the city center, except for the winter case in which the maximum declining trend shifted northeastward to rural Miyun (MY). The influence of urbanization on the annual wind speed was estimated to be about-0.05 m s-1 (10 yr)-1 during 1960–2008, accounting for around one fifth of the regional mean declining trend. The annual and seasonal geostrophic wind speeds around Beijing, based on daily mean sea level pressure (MSLP) from the ERA-40 reanalysis dataset, also exhibited decreasing trends, coincident with the results from site observations. A comparative analysis of the MSLP fields between 1966–1975 and 1992–2001 suggested that the influences of both the winter and summer monsoons on Beijing were weaker in the more recent of the two decades. It is suggested that the bulk of wind in Beijing is influenced considerably by urbanization, while changes in strong winds or wind speed extremes are prone to large-scale climate change in the region. 相似文献
17.
Xingang Fan Jeremy R. Krieger Jing Zhang Xiangdong Zhang 《Boundary-Layer Meteorology》2013,148(1):207-226
To achieve a high-quality simulation of the surface wind field in the Chukchi/Beaufort Sea region, quick scatterometer (QuikSCAT) ocean surface winds were assimilated into the mesoscale Weather Research and Forecasting model by using its three-dimensional variational data assimilation system. The SeaWinds instrument on board the polar-orbiting QuikSCAT satellite is a specialized radar that measures ice-free ocean surface wind speed and direction at a horizontal resolution of 12.5 km. A total of eight assimilation case studies over two five-day periods, 1–5 October 2002 and 20–24 September 2004, were performed. The simulation results with and without the assimilation of QuikSCAT winds were then compared with QuikSCAT data available during the subsequent free-forecast period, coastal station observations, and North American Regional Reanalysis data. It was found that QuikSCAT winds are a potentially valuable resource for improving the simulation of ocean near-surface winds in the Chukchi/Beaufort Seas region. Specifically, the assimilation of QuikSCAT winds improved, (1) offshore surface winds as compared to unassimilated QuikSCAT winds, (2) sea-level pressure, planetary boundary-layer height, as well as surface heat fluxes, and (3) low-level wind fields and geopotential height. Verification against QuikSCAT data also demonstrated the temporal consistency and good quality of QuikSCAT observations. 相似文献
18.
M. A. Novitskii L. K. Kulizhnikova O. Yu. Kalinicheva D. Gaitandzhiev D. Barantiev E. Bachvarova K. Krysteva 《Russian Meteorology and Hydrology》2012,37(3):159-164
The characteristics of wind speed and wind direction in the boundary atmospheric layer measured at the meteorological station
in Akhtopol (Bulgaria) are presented. The measurements were carried out with the Scintec sodar and MK-15 automatic meteorological
station. The sodar measurement data on wind parameters at different heights in different months are presented as well as the
frequency of inshore and offshore wind directions, that enables to trace the intensity of the breeze circulation. The frequency
of calms and wind speeds at the heights of 50, 100, and 200 m according to gradations for different months and the probability
of wind of various speeds depending on the direction are also given. The breeze front characteristics in June–September of
2009 are computed from the speed and direction of surface wind measured with the acoustic anemometer of MK-15 complex. 相似文献
19.
Surface wind speed is a key climatic variable of interest in many applications, including assessments of storm-related infrastructure damage and feasibility studies of wind power generation. In this work and a companion paper (van der Kamp et al. 2011), the relationship between local surface wind and large-scale climate variables was studied using multiple regression analysis. The analysis was performed using monthly mean station data from British Columbia, Canada and large-scale climate variables (predictors) from the NCEP-2 reanalysis over the period 1979–2006. Two regression-based methodologies were compared. The first relates the annual cycle of station wind speed to that of the large-scale predictors at the closest grid box to the station. It is shown that the relatively high correlation coefficients obtained with this method are attributable to the dominant influence of region-wide seasonality, and thus contain minimal information about local wind behaviour at the stations. The second method uses interannually varying data for individual months, aggregated into seasons, and is demonstrated to contain intrinsically local information about the surface winds. The dependence of local wind speed upon large-scale predictors over a much larger region surrounding the station was also explored, resulting in 2D maps of spatial correlations. The cross-validated explained variance using the interannual method was highest in autumn and winter, ranging from 30 to 70% at about a dozen stations in the region. Reasons for the limited predictive skill of the regressions and directions for future progress are reviewed. 相似文献
20.
根据2016—2017年大理机场航空器报告的风切变事件,利用同时段的自动气象观测资料、风廓线雷达资料对大理机场风切变进行了统计和分析。结果表明:①风切变均发生在每年的11月至次年4月,1月、2月最多;主要发生于07:00—13:00,一半出现在晴天;发生在350m以下占83%。②100m以下的风切变,地面均有阵性风,最大最小风速差6m/s;发生在15~91m的6次风切变,5次报告风切变的一端风向变化超过180°,南北两端地面风出现对头风,风速差异明显。AWOS(Automated Weather Observation System)捕捉到风向风速的明显变化可为近地层风切变预警提供参考。③发生在高度较高的风切变,雷达资料在遭遇风切变高度的上下层存在≥8m/s风速差,能确定上下层风不连续的准确高度、开始时间和结束时间。④机场区域常出现地面风速大而上空风速小或地面风速小而上空风速大的情况,结合地面风和风廓线雷达资料可为今后低高度风切变的初步预警提供参考。 相似文献