共查询到20条相似文献,搜索用时 15 毫秒
1.
The meteorology at the Cabauw tower site in the Netherlands has been modelled for 2005 using a local scale prognostic meteorological
and air pollution model called TAPM. A number of performance measures have been used to assess model accuracy, including comparison
statistics such as root-mean-square error (RMSE) and index of agreement (IOA). Results show that the model performs very well
for prediction of wind and temperature at the six tower levels that range from 10 to 200 m above the ground, as well as performing
well for radiation and surface fluxes. The model simulation shows almost no bias in mean and standard deviations of wind and
temperature at each tower height level, with small RMSE (e.g. RMSE of 1.2 m s−1 for 10-m wind speed, and 1.6°C for 10-m temperature) and high correlation and IOA (e.g. IOA of 0.92 for 10-m wind speed and
0.98 for 10-m temperature). Results for radiation and surface fluxes also show good performance, although some biases were
seen for these variables, and possibilities for future model development were identified. An examination of model sensitivity
also explored several aspects of the model configuration and input. 相似文献
2.
Boundary-layer flow over very rough surfaces is poorly understood so the applicability of standard micrometeorological theory is uncertain. This study presents observations of the turbulent fluctuations of meteorological parameters over a suburban area. Even though the height of measurement is considered to be close to the junction between the inertial and roughness sub-layers, the wind and temperature spectra and the momentum and sensible heat flux cospectra are in good agreement with reference data from smoother surfaces. Recommendations are made concerning site requirements, height of measurement and averaging times for the study of turbulence and turbulent fluxes over suburban terrain. 相似文献
3.
金莉莉 《沙漠与绿洲气象(新疆气象)》2016,10(4):81-86
利用乌鲁木齐市5座100 m气象铁塔2012年6月—2014年4月10层风速观测资料,应用统计学方法详细分析了乌鲁木齐市城区和郊区近地层风切变指数特征,得出以下结果:乌鲁木齐市风切变指数分布范围在-1.5~1.5,基本呈正态分布。风切变指数与风速大小关系密切,当风速1 m/s时,切变指数变化较大;当风速2 m/s时,切变指数变化较小。城区和郊区最大切变指数出现高度差异较大,南郊燕南立交切变指数最大在36~46 m,城区水塔山在60~77m,城区鲤鱼山在13~22 m,近北郊红光山在46~60 m,北郊米东在28~36 m。各层切变指数白天变化幅度大,夜间变化幅度小。切变指数日变化不规律与城市边界层变化的复杂性密切相关。降温幅度大的秋季-冬季时段,易出现切变指数小于0的情况。 相似文献
4.
Bias Correction in Wind Direction Forecasting Using the Circular-Circular Regression Method 
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下载免费PDF全文 Wind direction forecasting plays an important role in wind power prediction and air pollution management. Weather quantities such as temperature, precipitation, and wind speed are linear variables in which traditional model output statistics and bias correction methods are applied. However, wind direction is an angular variable; therefore, such traditional methods are ineffective for its evaluation. This paper proposes an effective bias correction technique for wind direction forecasting of turbine height from numerical weather prediction models, which is based on a circular-circular regression approach. The technique is applied to a 24-h forecast of 65-m wind directions observed at Yangmeishan wind farm, Yunnan Province, China, which consistently yields improvements in forecast performance parameters such as smaller absolute mean error and stronger similarity in wind rose diagram pattern. 相似文献
5.
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
6.
A. K. Georgoulias D. K. Papanastasiou D. Melas V. Amiridis G. Alexandri 《Meteorology and Atmospheric Physics》2009,104(1-2):103-111
The atmospheric boundary layer (ABL) is characterized by the turbulence eddies that transport heat, momentum, gaseous constituents and particulate matter from Earth’s surface to the atmosphere and vice versa. Thus, the determination of its height has a great importance in a wide range of applications like air quality forecasting and management. This study aims at estimating the height of the ABL in a suburban environment and at investigating its temporal variation and its relationship with meteorological variables, like temperature and wind. For this purpose, radiosonde data from the suburban area of Thessaloniki, Greece, are analyzed. The data analysis reveals that ABL height is usually below 200 m in the morning hours during all seasons of the year and that is also low when near-surface temperature and wind speed are low too. Additionally, noon ABL height exhibits a strong seasonal variation, reaching higher values during summer than during winter.Very high values of ABL height, of the order of ~3,000 m, are occasionally observed in Thessaloniki during summer. Moreover, sea breeze development during summer is related to a slight reduction of the ABL height. 相似文献
7.
利用2009年12月至2010年11月渤海西岸大港风能塔观测得到的风速、风向和温度梯度资料,计算了风能塔周围空气动力学粗糙度Z0。对比分析了风廓线法和风速标准差法的计算结果,讨论了风速标准差法的适用性以及下垫面空间非均一性对粗糙度的影响。结果表明:风能塔三个主风向上的平均粗糙长度为:0.1319m(N),0.0386m(SE)和0.0182m(SW)。通过严格条件限制,利用风速标准差法可以得到与风廓线法相同的计算效果。同一方位上,利用10-30 m资料计算得到的粗糙度长度的季节差异相对较小,而50-70 m的计算结果差异相对较大。在相同高度上,粗糙度长度计算结果亦存在明显季节差异,反映了随季节变化的植被对地表粗糙度的影响。 相似文献
8.
Hanane Zaïdi Eric Dupont Maya Milliez Luc Musson-Genon Bertrand Carissimo 《Boundary-Layer Meteorology》2013,147(2):237-259
We simulate the microscale heterogeneities of turbulent variables observed at a complex site for different wind directions. The atmospheric computational fluid dynamics (CFD) results are compared with an ensemble of 36 months of data collected at the experimental site SIRTA “Site Instrumental de Recherche par Télédétection Atmosphérique”, located near Paris (France) in a semi-urban environment. The experimental data show that the normalized turbulent kinetic energy (TKE) k/U 2 (where k is TKE and U is the wind speed) at 10-m height, for two different locations, is highly dependent on wind direction and strongly influenced by trees. These measurements show a strong increase of the normalized TKE downstream of the forest canopies with a large variability within the 36-month period in part due to the variation of the tree foliage. The numerical simulations are carried out using the CFD code Code_Saturne with the standard k?ε closure, in neutral stratification. The buildings are taken into account explicitly in the mesh and the forested areas are modelled with two approaches: the classical roughness wall law and a drag porosity. A comparison has been performed between the calculated values and the median of measured values of the normalized TKE and the normalized friction velocity, for each wind sector of 10°. A very good agreement is obtained with the drag porosity model, whereas the classical roughness law leads to a strong underestimation downstream of the forested areas. However, this large improvement of the results using the drag porosity model can only be obtained with a refinement of the grid, especially in forested areas, and an accurate land-use map. 相似文献
9.
利用CLC-11-D型边界层风廓线雷达的5波束观测数据,对比分析了晴空、稳定性降水和对流性降水等不同类型气象条件下边界层风廓线雷达测风的准确性,并对2016年3月1日—2017年2月28日共计7300时次的晴空观测资料进行了测风质量评估,得出结论如下:在晴空条件下大气均匀稳定,水平风速和风向测量精度要优于稳定性降水和对流性降水天气,降水出现前后环境大气扰动较大是导致稳定性降水和对流性降水天气下测风精度较差的原因;150 m以下近地层高度的测风质量较差,与地杂波干扰较强有关;夏季有效探测高度最高可达6300 m左右,春秋季有效探测高度比较接近,分别为2000 m和2500 m左右,冬季有效探测高度最低,仅为1100 m左右;4个季节测风质量评估达标高度分别为900、4000、2200 m和1100 m,大气环境的湿度条件和水平风速、风向标准差的波动是影响测风质量评估的重要因素。 相似文献
10.
L. M. Psalomshchikova V. V. Stadnik I. A. Sall’ N. P. Mironicheva O. V. Trofimova G. A. Aleksandrova 《Russian Meteorology and Hydrology》2017,42(11):705-716
The calculated aeroclimatic characteristics of the lower 1000-m atmospheric layer needed to study the conditions for the atmospheric diffusion of pollutants are considered. The measurements of temperature profiles with the MTP-5 microwave temperature profiler and the data of weather balloon observations on wind speed and wind direction from the special meteorological station located at the Leningrad NPP-2 (LNPP-2) construction site are used as initial data. The characteristics of the vertical distribution of temperature and wind obtained from the observations in the LNPP-2 construction area and at the Voeikovo upper-air network station are compared. 相似文献
11.
An estimate of roughness length is required by some atmospheric models and is also used in the logarithmic profile to determine the increase of wind speed with height under neutral conditions. The choice of technique for determining roughness lengths is generally constrained by the available input data. Here, we compare sets of roughness lengths derived by different methods for the same site and evaluate their impact on the prediction of the vertical wind speed profile.Wind speed and direction data have been collected at four heights over a three-year period at the North Norfolk Wind Monitoring Site. Wind speed profiles were used to generate sector roughness lengths based on the logarithmic profile formula. This is the only direct way of determining roughness lengths. The simplest and cheapest method is to use maps with published tables giving roughness length estimates for different terrain types. Alternatively Wieringa (1976, 1986) and Beljaars (1987) give formulae for determining roughness lengths from wind speed gusts or standard deviations.The four sets of estimated roughness lengths vary considerably. They were used to estimate 34 m wind speeds from 12.7 m observations. The profile-derived roughnesses are used simply as a check on the prediction of the wind speed profiles. The terrain-derived roughness lengths give reasonable results. Gust-derived and standard deviation roughnesses both predict wind speeds which are lower than the observed ones. The error is greater in the case of standard deviation roughnesses. If stability corrections are applied in the prediction of the vertical wind speed profile, the results are considerably improved. 相似文献
12.
Characteristics of the Drag Coefficient in the Roughness Sublayer over a Complex Urban Surface 总被引:2,自引:1,他引:1
The statistics of momentum exchange in the urban roughness sublayer are investigated. The analysis focuses on the characteristics of the dimensionless friction velocity, \({u_{*}}/U\) , which is defined as the square root of the drag coefficient. The turbulence observations were made at a height of 47 m above the ground on the 325-m meteorological tower, which is located in a very inhomogeneous urban area in Beijing. Under neutral conditions, the dependence of the drag coefficient on wind speed varies with wind direction. When the airflow is from the area of densely built-up buildings, the drag coefficient does not vary with wind speed, while when the airflow is from the area covered by vegetation, the drag coefficient appears to decrease with increasing wind speed. Also, the drag coefficient does not vary monotonically with the atmospheric stability. Both increasing stability and increasing instability lead to the decrease of the drag coefficient, implying that the roughness length and zero-plane displacement may vary in urban areas. 相似文献
13.
应用城市冠层模式研究建筑物形态对城市边界层的影响 总被引:5,自引:1,他引:4
文中将城市冠层模式耦合到南京大学城市尺度边界层模式中,通过模拟对比发现,耦合模式对城市地区气温模拟结果更接近于观测值,尤其是对城市地区夜间气温模拟的改进.运用改进耦合模式通过多个敏感性试验的模拟,从城市面积扩张、建筑物高度增加、建筑物分布密度变化等角度研究城市建筑物三维几何形态变化对城市边界层及城市气象环境的影响,试验结果表明:(1)城市面积扩张使得城市下垫面的热通量增大,热力湍流活动增强,动量通量输送增强,城市湍能增大,湍流扩散系数变大,城市气温升高,且对不同时刻城市区域大气层结稳定度均有不同程度的影响.(2)建筑物高度增加增大了城市下垫面的粗糙度和零平面位移.同时也增大了城市街渠高宽比.城市建筑物越高,白天城市地区地表热通量越小,城市上空大气温度越低,平均风速减小,湍能减小;夜间由于高大建筑物释放储热比低矮建筑物要多,其热力湍流相对活跃,地表热通量增大,使得城市区域气温较高.(3)建筑物密度增大,会减小城市下垫面的粗糙度同时增强街渠对辐射的影响.建筑物密度增大在白天会减小地表热通量和动量通量,使城市气温降低,平均风速增大,城市湍流活动能力减弱;夜间城市释放较多储热使得气温较高. 相似文献
14.
气象高塔数据资料弥足珍贵, 对其进行质量控制将为后续科学研究和业务工作的开展提供便利; 此外, 利用塔基观测资料计算空气动力学参数有助于校正模式空气动力学参数理论值。对2017-2018年深圳356 m气象梯度观测塔共13层的每10 s风速、风向、相对湿度、温度探测资料进行数据质量控制, 基于莫宁-奥布霍夫相似理论和数据质量控制后的气象梯度观测塔近地层(10 m、20 m、40 m、50 m和80 m) 1分钟平均的风温资料, 利用最小二乘法拟合迭代计算了近中性条件下深圳气象梯度观测塔下垫面空气动力学粗糙度(z0)和零平面位移(d)。结果表明:深圳气象梯度观测塔的气象探测资料数据质量很高, 连续两年平均数据缺失率为1.28%, 数据错误率为0.01%。近中性边界层条件下, 深圳气象梯度观测塔下垫面空气动力学粗糙度均值为0.35 m, 零平面位移均值为5.33 m, 结果合理可信。研究表明空气动力学参数受下垫面非均匀性、植株柔软性、气流来向、风速等的共同影响。 相似文献
15.
Study on Effects of Building Morphology on Urban Boundary Layer Using an Urban Canopy Model 下载免费PDF全文
下载免费PDF全文 An urban canopy model is incorporated into the Nanjing University Regional Boundary Layer Model. Temperature simulated by the urban canopy model is in better agreement with the observation, especially in the night time, than that simulated by the traditional slab model. The coupled model is used to study the effects of building morphology on urban boundary layer and meteorological environment by changing urban area, building height, and building density.It is found that when the urban area is expanded, the urban boundary layer heat flux, thermal turbulence, and the turbulent momentum flux and kinetic energy all increase or enhance, causing the surface air temperature to rise up. The stability of urban atmospheric stratification is affected to different extent at different times of the day.When the building height goes up, the aerodynamic roughness height, zero plane displacement height of urban area, and ratio of building height to street width all increase. Therefore, the increase in building height results in the decrease of the surface heat flux, urban surface temperature, mean wind speed, and turbulent kinetic energy in daytime. While at night, as more heat storage is released by higher buildings, thermal turbulence is more active and surface heat flux increases, leading to a higher urban temperature.As the building density increases, the aerodynamic roughness height of urban area decreases, and the effect of urban canopy on radiation strengthens. The increase of building density results in the decrease in urban surface heat flux, momentum flux, and air temperature, the increase in mean wind speed, and the weakening of turbulence in the daytime. While at night, the urban temperature increases due to the release of more heat storage. 相似文献
16.
A model for the time and space variation of the internal boundary-layer height over a land area with an irregular coastline is presented. It is based on the analytical model of the boundary-layer height proposed by Gryning and Batchvarova (1990) and Batchvarova and Gryning (1991), The model accounts for the temperature jump and the mean vertical air motion at the top of the internal boundary-layer. Four cases from experiments in Nanticoke and Vancouver are used for model validation. The agreement between the calculated and measured internal boundary layer height at the observational sites is fairly good. The input information for the model consist of wind speed and direction, friction velocity and kinematic heat flux in time and space for the area, and the potential temperature gradient and the mean vertical air motion above the internal boundary layer. For the experiments used in the validation the effect of subsidence is relatively important in the afternoon under low wind speed high pressure conditions, lowering the height of the internal boundary layer by up to 10%, and it is negligible in the morning hours. The effect of the mixing height over the sea is found to be negligible. 相似文献
17.
An ensemble Kalman filter based on the Weather Research and Forecasting Model (WRF-EnKF) is used to explore the effectiveness of the assimilation of surface observation data in an extreme local rainstorm over the Pearl River Delta region on 7 May 2017. Before the occurrence of rainstorm, the signals of weather forecasts in this case are too weak to be predicted by numerical weather model, but the surface temperature over the urban area are high. The results of this study show that the wind field, temperature, and water vapor are obviously adjusted by assimilating surface data of 10-m wind, 2-m temperature, and 2-m water vapor mixing ratio at 2300 BST 6 May, especially below the height of 2 km. The southerly wind over the Pearl River Delta region is enhanced, and the convergence of wind over the northern Guangzhou city is also enhanced. Additionally, temperature, water vapor mixing ratio and pseudoequivalent potential temperature are obviously increased over the urban region, providing favorable conditions for the occurrence of heavy precipitation. After assimilation, the predictions of 12-h rainfall amount, temperature, and relative humidity are significantly improved, and the rainfall intensity and distribution in this case can be successfully reproduced. Moreover, sensitivity tests suggest that the assimilation of 2-m temperature is the key to predict this extreme rainfall and just assimilating data of surface wind or water vapor is not workable, implying that urban heat island effect may be an important factor in this extreme rainstorm. 相似文献
18.
南京冬季城、郊近地面湍流特征的对比分析 总被引:1,自引:0,他引:1
利用2006年2月17日—3月2日南京及其郊区的近地层湍流资料,分析了城、郊下垫面的无量纲化风速、温度的湍流特征,验证了Monin-obukhov(M-O)相似理论在城、郊下垫面的适用性,并与其他城市和地区的观测结果进行了比较,结果表明:在市区和郊区无量纲脉动风速标准差随稳定度的变化虽然都符合“1/3”次方律,但城、郊有一定差异,尤其在水平方向更为明显。在非中性时垂直向的变化要比水平向更符合“1/3”次方律;σT/|T*|与Z/L关系在城、郊有一定差异,在不稳定时在市区和郊区分别按“-1/3”次和“-2/3”次方规律变化,而在稳定时市区按“-2/3”次方变化,郊区无普适函数关系。在稳定和不稳定条件下,城、郊σT/|T*|都随着|Z/L|的减小而增大。 相似文献
19.
S. A. Hsu 《Boundary-Layer Meteorology》1983,25(4):417-421
Estimates of the latent heat flux at the air-sea interface made by the profile method are compared to estimates by a wind-wave interaction (WWI) method that takes into account both wind and wave characteristics. A data set that consisted of profile measurements (six levels) of wind, temperature, and humidity over the Arabian Sea was used to compare the methods, and the agreement is good. It is shown that this WWI method can be used to compute the shear velocity, and then the results can be applied in the computation of latent heat flux. The parameters used in the WWI method are wind speed and direction, air temperature and humidity, sea-surface temperature, and significant wave height and period. All these data may be obtained from standard ship observations. 相似文献
20.
Turbulence measurements in the lower half of the convective boundary layer (CBL), which includes both mixed layer and surface layer, were carried out with five sonic anemometers mounted on a 213-m tower over a complex flat suburban area with patches of forest, agricultural land, houses and buildings. Also made were radiosoundings of temperature, humidity and wind speed, to determine the CBL height. The sonic anemometer data of wind speed and temperature were processed to derive the second-moment turbulent statistics and were analyzed to investigate the applicability of variance methods to estimate regional surface fluxes of sensible heat. It was found that the temperature variances in the lower mixed layer, coupled with universal functions, produced sensible heat fluxes H over the area with an rms error of the order of 40 Wm-2 when compared with H values derived from the eddy correlation method. The variance of the vertical wind speed did not produce as good a result. In contrast, the surface-layer temperature variances yielded H values with rms error of the order of 20 Wm-2, even though the underlying surface was non-uniform and highly non-isothermal, above which enhanced temperature variances could be suspected. 相似文献