共查询到20条相似文献,搜索用时 468 毫秒
1.
T. Travouillon M. Schöck S. Els R. Riddle W. Skidmore 《Boundary-Layer Meteorology》2011,141(2):273-288
In this two-part study, we investigate the usefulness of Sodars as part of a large instrument suite for the study of high
mountains in the site selection process of the Thirty Meter Telescope (TMT). In this first part, we describe the reproducibility
of the measurements and the comparability of results from different sites for data taken with two complementary Sodar models:
the XFAS and SFAS models manufactured by Scintec Inc. To this end, a cross-calibration campaign was conducted on two of the
sites comparing both the wind speeds and the optical turbulence measurements of the different units. The specific set-up conditions
and the low atmospheric pressure require us to make a compromise between the amount of data available for statistics and the
quality of the data. For the comparison of the wind speed, results from the same models show a systematic difference of 12
and 9% for the XFAS and SFAS, respectively. The scatter between individual measurements, which includes instrumental, set-up
and statistical fluctuation contributions, was found to be 21 and 23%. For optical turbulence, the respective values are 6
and 3% for the systematic difference and 46 and 67% for the scatter. These results show that Sodars can be useful tools for
astronomical site testing for projects such as the TMT. 相似文献
2.
多普勒声雷达测风与直接测量仪器的观测比较 总被引:3,自引:0,他引:3
文中对多普勒声雷达测风和325 m铁塔上风速、风向仪及超声风速仪的测量值进行了观测比较。结果表明,当信噪比大于1时,两种方法测量的平均风速、风向的相关较好,风速、风向廓线较为接近;声雷达测量的垂直风速平均值和均方根差比超声风速仪的测量值略偏大。这与国外进行的观测比较结果一致。 需要指出,声雷达和直接测量仪器的观测比较中存在一定差异,特别是对比每一次的观测值就可以看出,在某些情况下还存在明显差异。进一步分析声雷达测风产生偏差的原因,对误差做出合理的订正是十分必要的。 相似文献
3.
The capability of SODAR to measure the mean wind field in the lower boundary layer is well known and documented. Therefore, mean wind data are easily obtainable by means of the SODAR-technique, and are used to simulate the transport of pollutants after their release into the atmosphere. But when calculating the diffusion of pollutants, information about atmospheric turbulence is needed, too. In principle, a SODAR can measure turbulence data like the standard deviation of the vertical wind speed or horizontal wind direction. But when measuring turbulence data with a SODAR, one is beset by a host of limitations like volume sampling, spatial and temporal separation of sampling volume, attenuation of the acoustic waves and the slow speed of sound. Therefore, successful turbulence measurements with SODAR are not numerous and little is known about the quality of these data. In this context an intercomparison between a REMTECH-SODAR and a sonic anemometer mounted at the 100 m level of our meteorological tower was performed in summer 1990 at the Kernforschungszentrum Karlsruhe. The intercomparison is in two parts:
- Half hour mean values of the standard deviation of the vertical wind speed are intercompared by scatter plots and by a linear regression and correlation analysis.
- During 7 periods, 2 hours each, and covering atmospheric stabilities from unstable to slightly stable, the instantaneous vertical wind speeds were measured by both instruments and spectra were calculated.
4.
Aggeliki Dandou Maria Tombrou Klaus Schäfer Stefan Emeis Anna P. Protonotariou Elissavet Bossioli Nikolaos Soulakellis Peter Suppan 《Boundary-Layer Meteorology》2009,131(3):425-440
An attempt is made to correlate the mixing heights, derived from ceilometer and Sodar measurements, to those simulated by
different atmospheric boundary-layer parameterization schemes. The comparison is performed at two sites (one suburban and
one rural) close to Munich, Germany for two spring and two winter days. It is found that, under convective conditions, the
mixing height determined, by both Sodar and ceilometer, corresponds to the middle or the top of the entrainment zone, respectively,
as calculated from the eddy-viscosity profiles. Under stable conditions, the measured mixing height is related to the height
where eddy viscosities attain their minimum values (Sodar) or to the height of residual mechanical turbulence (ceilometer).
During a foehn case with weak turbulence, the measured mixing height from both Sodar and ceilometer is better inferred by
considering the eddy-viscosity profiles during daytime and the height of the low-level jet during nighttime. 相似文献
5.
郑新倩 《沙漠与绿洲气象(新疆气象)》2017,11(5):63-69
利用2013年6月巴丹吉林沙漠拐子湖地区流沙下垫面的陆气通量观测资料,计算并分析了该研究区不同大气稳定层结条件下的湍流速度各分量谱和温度谱及湍流的局地各向同性特征。结果表明:该研究区风速各分量的湍流强度随平均风速的增加而逐渐减小,当平均风速2 m/s时,风速各分量的湍流强度逐渐稳定且基本限定在0.5以内。在不同大气稳定度下,湍流速度和温度能谱曲线在惯性副区内逐渐有合并趋势且遵循Kolmogorov提出的-2/3定律,速度各分量谱在高频段均满足各向同性且符合低频限制理论。随着稳定度的增加,风速分量的能谱曲线逐渐降低且向高频端移动,风速分量和温度能谱对应的谱峰长度则逐渐减小。该研究区水平湍流尺度范围为9.0~600 m,垂直湍流谱峰波长为10.79~75 m。该结果介于草地和森林下垫面之间,与塔克拉玛干沙漠腹地的试验结果较为接近。 相似文献
6.
A wind tunnel study of turbulent flow over model hills 总被引:1,自引:1,他引:1
Detailed wind tunnel measurements have been made of mean flow and turbulence over a two-dimensional ridge and a circular hill, both having cosine-squared cross-section and maximum slope about 15 °. The measurements were made in an artificially thickened neutrally stratified boundary layer, and have been compared with results from linear models and rapid distortion theory as appropriate.Our study shows that linear theory gives generally good predictions of the mean flow on the upwind side of the hills, and especially of the flow speedup at the hill top, but that the turbulence is less well predicted. In particular, the measurements show a major increase in the vertical component of turbulence and in the shear stress on the upwind slope of both the two- and three-dimensional hills which is not predicted by either equilibrium or isotropic rapid-distortion theories, although this may be partly due to the effect of streamline curvature. Rapid-distortion theory is successful only in describing the streamwise component of turbulence in the outer region of the flow, while in the upper part of the inner region of the flow, the turbulence measurements show disagreement with both the equilibrium and the rapid-distortion theories. Our experiments also confirm that the equilibrium region is a very thin layer close to the surface, while above this region and below the outer region, there is a transitional region where all terms in the stress equation are important.The measurements over the three-dimensional hill suggest that the mean flow and turbulence are broadly similar to those over the two-dimensional ridge, but with reduced perturbation amplitudes. The major differences between the two cases are found on the upwind slope and in the wake where, respectively, horizontal divergence and convergence of the three-dimensional flow are most pronounced. 相似文献
7.
The effect of topographical slope angle and atmospheric stratification on turbulence intensities in the unstably stratified surface layer have been parameterized using observations obtained from a three-dimensional sonic anemometer installed at 8 m height above the ground at the Seoul National University (SNU) campus site in Korea for the years 1999–2001. Winds obtained from the sonic anemometer are analyzed according to the mean wind direction, since the topographical slope angle changes significantly along the azimuthal direction. The effects of the topographical slope angle and atmospheric stratification on surface-layer turbulence intensity are examined with these data. It is found that both the friction velocity and the variance for each component of wind normalized by the mean wind speed decrease with increase of the topographical slope angle, having a maximum decreasing rate at very unstable stratification. The decreasing rate of the normalized friction velocity (u
* /U) is found to be much larger than that of the turbulence intensity of each wind component due to the reduction of wind shear with increase in slope angle under unstable stratification. The decreasing rate of the w component of turbulence intensity (σ
w
/U) is the smallest over the downslope surface whereas that of the u component (σ
u
/U) has a minimum over the upslope surface. Consequently, σ
w
/u
* has a maximum increasing rate with increase in slope angle for the downslope wind, whereas σ
u
/u
* has its maximum for the upslope wind. The sloping terrain is found to reduce both the friction velocity and turbulence intensity compared with those on a flat surface. However, the reduction of the friction velocity over the sloping terrain is larger than that of the turbulence intensity, thereby enhancing the turbulence intensity normalized by the friction velocity over sloping terrain compared with that over a flat surface. 相似文献
8.
本文通过对比检验2013年1月至2016年6月ASCAT卫星反演风场与青岛浮标海岛站实测10m风场资料,开展ASCAT卫星反演风场在青岛沿海的适用评估。结果表明:ASCAT反演风速整体偏大,风向偏左,但整体偏差均较小。ASCAT反演风场和浮标海岛站实测风场的风速和风向的整体偏差分别为1.6m/s和-9.6°,说明ASCAT反演风场在青岛沿岸有很好的适用性,比EC再分析资料能更细致地反映青岛沿岸的风场空间分布。从风速分级比较来看,风速越弱,卫星反演风速越接近站点实测风速,反演结果越好,而风向反演结果则反之。风速和风向的反演效果皆是晚上比早晨好。并且季节变化对风速反演效果影响不大,但是对风向反演效果有一定的影响,秋冬季节风向反演结果好于春夏季节。最后,对ASCAT反演风速分别进行线性回归订正、综合误差、风速等级误差和升降轨误差订正,发现线性回归订正结果最佳。 相似文献
9.
A Comparative Study of Stationary and Non-stationary Wind Models Using Field Measurements 总被引:1,自引:2,他引:1
We present a comparative study of the conventional stationary wind speed model and a newly proposed non-stationary wind speed
model using field measurements. The concept of, and the differences between, the two wind models are briefly reviewed. Wind
data recorded by a field measurement system for wind turbulence parameters (FMS-WTP) of 1-year duration are analyzed using
the two wind models. Comparisons were made between the wind characteristics obtained from the two models, including hourly
mean wind speed, turbulence intensity, the wind spectrum, integral length scale, root coherence function and probability density
function. The effects of wind types (monsoon or typhoon), statistical properties (stationary or non-stationary), and surface
roughness (open-sea fetch or overland fetch) on wind characteristics are discussed. The comparative study demonstrates that
the non-stationary wind model appears to be more appropriate than the conventional stationary wind speed model for characterizing
turbulent winds of one-hour duration over complex terrain. 相似文献
10.
The development and characteristics of coastal internal boundary layers were investigated in 28 tests. These were made at all seasons and in both gradient and sea-breeze flows but only during mid-day periods. Measurements of turbulence and temperature were taken from a light aircraft which flew traverses across Long Island at successive altitudes parallel to the wind direction. These were used to locate the boundary between modified and unmodified air as a function of height and distance from the coast. The same measurements plus tower measurements of wind, turbulence and temperature, pilot balloon soundings and measurements of land and water surface temperatures by a remote sensing IR thermometer were used to quantify the characteristics of the modified and unmodified air. The boundary layer slope was steep close to the land-water interface and became shallower with downwind distance. Growth of the boundary layer was initially slower with stable lapse rates upwind than with neutral or unstable conditions over the water. An equilibrium height was found in many tests except under conditions of free convection when the internal boundary layer merged into the mixed layer inland and with sea-breeze conditions. The equilibrium height depended on downwind conditions and was greater with low wind speeds and strong land surface heating than with stronger winds and small land-water temperature differences. Current theoretical models are not adequate to predict the height of the boundary layer at the altitudes and distances studied but reasonably good predictions were given by an empirical model developed earlier. Wind speed in the modified air averaged about 70% of that at the coast but turbulence levels were several times higher both near the surface and aloft. These findings have important implications for diffusion from coastal sites. 相似文献
11.
zum Berge Kjell Schoen Martin Mauz Moritz Platis Andreas van Kesteren Bram Leukauf Daniel El Bahlouli Asmae Letzgus Patrick Knaus Hermann Bange Jens 《Boundary-Layer Meteorology》2021,180(1):53-78
The airborne measurement platform MASC-3 (Multi-Purpose Airborne Sensor Carrier) is used for measurements over a forested escarpment in the Swabian Alps to evaluate the wind field. Data from flight legs between 20 and 200 m above the ground on two consecutive days with uphill (westerly) flow in September 2018 are analyzed. In the lowest 140 m above the ground a speed-up is found with increased turbulence and changes in wind direction directly over the escarpment, whereas in the lowest 20 to 50 m above the ground a deceleration of the flow is measured. Additionally, simulation results from a numerical model chain based on the Weather Research and Forecasting (WRF) model and an OpenFOAM (Open Source Field Operation and Manipulation) model, developed for complex terrain, are compared to the data captured by MASC-3. The models and measurements compare well for the mean wind speed and inclination angle.
相似文献12.
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
13.
The development and characteristics of coastal internal boundary layers were investigated in 28 tests. These were made at all seasons and in both gradient and sea-breeze flows but only during mid-day periods. Measurements of turbulence and temperature were taken from a light aircraft which flew traverses across Long Island at successive altitudes parallel to the wind direction. These were used to locate the boundary between modified and unmodified air as a function of height and distance from the coast. The same measurements plus tower measurements of wind, turbulence and temperature, pilot balloon soundings and measurements of land and water surface temperatures by a remote sensing IR thermometer were used to quantify the characteristics of the modified and unmodified air. The boundary layer slope was steep close to the land-water interface and became shallower with downwind distance. Growth of the boundary layer was initially slower with stable lapse rates upwind than with neutral or unstable conditions over the water. An equilibrium height was found in many tests except under conditions of free convection when the internal boundary layer merged into the mixed layer inland and with sea-breeze conditions. The equilibrium height depended on downwind conditions and was greater with low wind speeds and strong land surface heating than with stronger winds and small land-water temperature differences. Current theoretical models are not adequate to predict the height of the boundary layer at the altitudes and distances studied but reasonably good predictions were given by an empirical model developed earlier. Wind speed in the modified air averaged about 70% of that at the coast but turbulence levels were several times higher both near the surface and aloft. These findings have important implications for diffusion from coastal sites. 相似文献
14.
J. Keder 《Meteorology and Atmospheric Physics》1999,71(1-2):133-138
Summary A REMTECH PA2 Doppler Sodar is operated regularly at the Czech Hydrometeorological Institute (CHMI) observatory in Prague,
collocated with a routine rawinsonde sounding system. The Air Pollution Control Division of CHMI utilises the sodar data in
air pollution studies and as an information support for the smog warning system operated in Prague. Besides of the basic software
for echo strength and wind profile evaluation, optional routines for deriving parameters such as inversion and mixing height,
stability class etc. were delivered by the sodar manufacturer. Based on a sufficiently large data set (more than one year)
of synchronous sodar and rawinsonde measurements, an analysis and comparison of inversion and mixing heights provided by both
sounding systems have been accomplished in order to evaluate the correctness and accuracy of sodar estimates of these parameters.
In contrast to the wind speed and wind direction data, for which a satisfactory agreement with other kind of measurements
has been reported by many studies, the results for inversion and mixing height detection were totally disappointing. A direct
applicability of inversion height and mixing height data provided by the REMTECH’s automatic routines in air pollution studies
or smog warning systems is quite problematical with the present “state of the art”.
Received November 3, 1998 Revised April 20, 1999 相似文献
15.
Albin Hammerle Alois Haslwanter Michael Schmitt Michael Bahn Ulrike Tappeiner Alexander Cernusca Georg Wohlfahrt 《Boundary-Layer Meteorology》2007,122(2):397-416
Carbon dioxide, latent and sensible heat fluxes were measured by means of the eddy covariance method above a mountain meadow
situated on a steep slope in the Stubai Valley in Austria, based on the hypothesis that, due to the low canopy height, measurements
can be made in the shallow equilibrium layer where the wind field exhibits characteristics akin to level terrain. In order
to test the validity of this hypothesis and to identify effects of complex terrain in the turbulence measurements, data were
subjected to a rigorous testing procedure using a series of quality control measures established for surface-layer flows.
The resulting high quality dataset comprised 36% of the original observations, the substantial reduction being mainly due
to a change in surface roughness and associated fetch limitations in the wind sector dominating during nighttime and transition
periods. The validity of the high quality dataset was further assessed by two independent tests: (i) a comparison with the
net ecosystem carbon dioxide exchange measured by means of ecosystem chambers, and (ii) the ability of the eddy covariance
measurements to close the energy balance. The net ecosystem CO2 exchange measured by the eddy covariance method agreed reasonably well with ecosystem chamber measurements. The assessment
of the energy balance closure showed that there was no significant difference in the correspondence between the meadow on
the slope and another one situated on flat ground at the bottom of the Stubai Valley, available energy being underestimated
by 28% and 29%, respectively. We thus conclude that, appropriate quality control provided, the eddy covariance measurements
made above a mountain meadow on a steep slope are of similar quality as compared to flat terrain. 相似文献
16.
Wind speed measurements from the test site at Rutherford Appleton Laboratory have been evaluated with respect to the spatial coherence function. The experimental arrangement provides coherence information for separation distances of 62, 80 and 102 m. These are at least three times greater than the measurement heights of 18 m and 18.7 m. Based on these experimental data and data published in the literature, different theoretical formulations are compared and a new, but simple, model for longitudinal and lateral coherence is proposed. At large separations the turbulent wind field is not isotropic, theoretical models to describe the coherence function for such distances are not available. The new model we propose builds on the classical exponential approach. It takes into account the influence of turbulence intensity and models the angular dependence of horizontal coherence. It is found that, for constant turbulence intensity, the lateral coherence decay becomes independent of the mean wind speed. 相似文献
17.
通过对台风莫拉克 (0908) 影响范围内的33座测风塔观测资料的分析可知:台风莫拉克越靠近陆地,风场的非对称性越明显,其行进方向的左侧测风塔风向呈逆时针旋转,右侧测风塔风向顺时针旋转。在远离台风莫拉克的地方风向稳定,湍流强度变化较平稳;在台风莫拉克登陆点附近,风向、风速和湍流强度均会出现突变。台风莫拉克影响期间,湍流强度与风速的关系未出现IEC标准曲线那样随风速增大稳定减小,其I15达B级和A级及以上的平均湍流强度会在风速7~17 m·s-1形成一个峰值;无论南风或北风,风速越大,各层湍流强度差异趋于减小,同等风速、高度的湍流强度偏南大风均大于偏北大风。位于台风莫拉克登陆点北侧测风塔湍流强度随风速的增加先减小后增大,最终各高度全部超过IEC标准A级曲线,而位于南侧测风塔湍流强度随风速的变化比北侧小,并随风速增大趋于标准A级曲线;另外北侧测风塔湍流强度大于南侧,且各高度偏北大风湍流强度之间的差异比南侧相应风向明显,表明北侧垂直方向的扰动更强。台风莫拉克阵风系数为1.2~1.7,其随高度变化与地形有关,一般情况下随高度升高而减小,在复杂地形条件下不符合随高度升高减小的规律。 相似文献
18.
低空颠簸(3000 m以下)由于可供飞行员判断和处置的时间短,一旦发生容易造成重大安全事故。气象条件是引发低空颠簸最直接、最重要的因素。本文采用北京地区8部风廓线雷达测得的高时空分辨率资料,结合华北空管局气象中心记录的2016年北京地区20个低空颠簸个例,分析了低空颠簸的统计特征和影响低空颠簸的气象条件。结果表明:北京地区低空颠簸在冬季发生频次高,其中2月颠簸发生频次最高,在夏季发生频次低。影响低空颠簸的气象指标包括水平风速、水平风的垂直切变,水平风的水平切变、水平风的时间切变和垂直风速。通过计算各气象指标的数值,尝试给出了造成低空颠簸的气象指标阈值,即水平风速大于18 m·s-1,水平风的垂直切变大于10 m·s-1·km-1,水平风的水平切变大于0.1 m·s-1·km-1,水平风的时间切变大于10 m·s-1·h-1以及垂直风速大于2 m·s-1,以上气象指标任意一个达到阈值,即满足造成低空颠簸的气象条件。此项工作对低空颠簸的预报具有一定参考意义。 相似文献
19.
Ta-Yung Li 《Boundary-Layer Meteorology》1974,7(2):185-198
Radon is an excellent tracer for the study of transport processes in the lower atmospheric boundary layer. Analyses of the radon data measured on a 300-m meteorological tower at Philadelphia show that the diurnal variation of atmospheric turbulence is closely related to the meteorological variables. A model of variation of radon concentration with mean wind speed and low-level vertical temperature difference is derived. It indicates that radon concentration is inversely proportional to the mean wind speed and directly proportional to the temperature difference. These predictions are in good agreement with the measurements. 相似文献
20.
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