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1.
Eichingeret al. (1993) discuss the use of a Raman lidar for measurements of water vapor fluxes and suggest that the method is superior to the use of standard micrometeorological, point sensor measurements. Although the lidar shows considerable promise for some purposes, we believe that their criticisms of point sensors are not warranted; that there are difficulties with their application of dissipation techniques to extract fluxes; and that they misinterpret the existence of plume structures as statistically significant spatial variations of turbulent fluxes. 相似文献
2.
A. Tunick 《Meteorology and Atmospheric Physics》2005,90(3-4):159-164
Summary Due to the increased use of laser and ground-to-satellite communications the need for reliable optical turbulence information
is growing. Optical turbulence information is important because it describes an atmospheric effect that can degrade the performance
of electromagnetic systems and sensors, e.g., free-space optical communications and infrared imaging. However, analysis of
selected past research indicates that there are some areas (i.e., data and models) in which optical turbulence information
is lacking. For example, line-of-sight optical turbulence data coupled with atmospheric models in hilly terrain, coastal areas,
and within cities are few in number or non-existent. In addition, the bulk of existing atmospheric computer models being used
to provide estimates of optical turbulence are basically one-dimensional in nature and assume uniform turbulence conditions
over large areas. As a result, current optical turbulence theory and models may be deficient and in error for inhomogeneous
(nonuniform) turbulence conditions, such as those that occur in urban environments or environments with changing topography
and energy budgets. While it is anticipated that theoretical advances in environmental physics (and like disciplines) will
be a catalyst for much new work this area, in the interim, we suggest that some very practical computational research can
be performed to extend existing low-atmospheric turbulence and micrometeorological calculations beyond current limitations. 相似文献
3.
利用2006年5~6月和2007年5~6月中国科学院HEST大气科学实验在珠峰绒布寺河谷野外观测期间获得的观测资料,分析了珠峰地区河谷近地层风向、风速、温度、湿度和CO2的日变化特征,讨论了珠峰北坡冰川风和山谷风的特点以及高原地表辐射、地表反照率和近地层湍流通量的变化特征.结果表明:在复杂地形和特殊下垫面影响下,珠峰绒布河谷地区近地面层各个气象要素和湍流通量日变化特征显著,并且明显存在冰川风和山谷风复合的局地环流,冰川风对该地区地气间物质能量交换起着重要作用. 相似文献
4.
2010年春季北京地区强沙尘暴过程的微气象学特征 总被引:3,自引:1,他引:2
利用北京大学校园地区PM10质量浓度观测资料、中国科学院大气物理研究所325m气象塔气象要素梯度和湍流观测资料,分析了北京地区2010年3月20~22日两次强沙尘暴过程微气象学要素和沙尘参量的时空演变以及湍流输送特征,为理解北京地区强沙尘暴天气沙尘输送规律和微气象学特征提供参考。结果表明:3月20~22日强沙尘暴过程前后不同高度温度先升后降,气压和相对湿度则相反。强沙尘暴来临时,高层风速先迅速增大,低层风速增加略有滞后,风切变明显加强,PM10浓度最大值和风速极大值出现时间较吻合。强沙尘暴过境时,不同高度向下的湍流动量输送、向上的湍流热量输送和湍流动能明显加强。与3月21日非沙尘暴日相比,强沙尘暴过程湍流动量通量增加,有利于沙尘粒子的水平和垂直输送过程;由于冷锋过境,水平热通量增大;垂直热通量因白天温度垂直梯度减小而减小,夜间因逆温层被破坏而增加;水平湍流动能对湍流动能占主要贡献,垂直湍流动能仅占水平湍流动能的10%~25%。 相似文献
5.
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
6.
7.
Verifying Inventory Predictions of Animal Methane Emissions with Meteorological Measurements 总被引:1,自引:0,他引:1
O. T. Denmead R. Leuning D. W. T. Griffith I. M. Jamie M. B. Esler L. A. Harper J. R. Freney 《Boundary-Layer Meteorology》2000,96(1-2):187-209
The paper examines the strengths and weaknesses of a rangeof meteorological flux measurement techniques that mightbe used to verify predictions of greenhouse gas inventories.Recent research into emissions of methane (CH4)produced by enteric fermentation in grazing cattle and sheepis used to illustrate various methodologies. Quantifying thisimportant source presents special difficulties because the animalsconstitute moving, heterogeneously distributed, intermittent, pointsources. There are two general approaches: one, from the bottom up,involves direct measurements of emissions from a known number ofanimals, and the other, from the top down, infers areal emissions ofCH4 from its atmospheric signature. A mass-balance methodproved successful for bottom-up verification. It permits undisturbedgrazing, has a simple theoretical basis and is appropriate for fluxmeasurements on small plots and where there are scattered pointsources. The top-down methodologies include conventional flux-gradientapproaches and convective and nocturnal boundary-layer (CBL and NBL)budgeting schemes. Particular attention is given to CBL budget methods inboth differential and integral form. All top-down methodologies require ideal weather conditions for their application, and they suffer from the scattered nature of the source, varying wind directions and low instrument resolution. As for mass-balance, flux-gradient micrometeorological measurements were in good agreement with inventory predictions of CH4 production by livestock, but the standard errors associated with both methods were too large to permit detection of changes of a few per cent in emission rate, which might be important for inventory, regulatory or research purposes. Fluxes calculated by CBL and NBL methods were of the same order of magnitude as inventory predictions, but more improvement is needed before their use can be endorsed. Opportunities for improving the precision of both bottom-up and top-down methodologies are discussed. 相似文献
8.
Poor daytime and night-time micrometeorological conditions are issues that influence the quality of environmental conditions and can undermine a comfortable human lifestyle. The sky view factor (SVF) is one of the essential physical parameters used to assess the micrometeorological conditions and thermal comfort levels within city streets. The position of the visible sky relative to the path of the sun, in the cardinal and ordinal directions, has not been widely discerned as a parameter that could have an impact on the micrometeorological conditions of urban streets. To investigate this parameter, different urban streets that have a similar SVF value but diverse positions of visible sky were proposed in different street directions intersecting with the path of the sun, namely N–S, NE–SW and NW–SE. The effects of daytime and night-time micrometeorological variables and human thermal comfort variables on the street were investigated by applying ENVI-met V3.1 Beta software. The results show that the position of the visible sky has a greater influence on the street’s meteorological and human thermal comfort conditions than the SVF value. It has the ability to maximise or minimise the mean radiation temperature (Tmrt, °C) and the physiological equivalent temperature (PET, °C) at street level. However, the visible sky positioned to the zenith in a NE–SW or N–S street direction and to the SW of a NW–SE street direction achieves the best daytime micrometeorological and thermal comfort conditions. Alternatively, the visible sky positioned to the NE for a NW–SE street direction, to the NW and the zenith for a NE–SW street direction and to the zenith for a N–S street direction reduces the night-time air temperature (Ta, °C). Therefore, SVF and the position of the visible sky relative to the sun’s trajectory, in the cardinal and ordinal directions, must be considered during urban street planning to better understand the resultant micrometeorological and human thermal comfort conditions. 相似文献
9.
湍流微气象观测的印痕分析方法及其应用拓展 总被引:13,自引:2,他引:11
在地面与大气间湍流相互作用的研究工作中,印痕(footprint)与印痕分析发挥着越来越重要的作用。文中介绍微气象学意义下印痕与印痕分析的理论、方法、历史和最新研究进展。着重介绍了具有理论和实用意义的数学解析印痕模型和拉格朗日数值印痕模型。对印痕分析在实际工作中的应用与问题进行了评述。文中明确指出了印痕概念的三维空间性质,探讨了将印痕分析从微气象学范畴拓展到中尺度范围的可能性, 及其在大气环境问题研究中的意义。 相似文献
10.
This paper describes how to measure turbulence in the atmospheric boundary layer (ABL) in order to address certain problems in modern atmospheric physics. These problems mainly relate to the Earth's energy budget (including the hydrological cycle) and biogeochemical cycles. Starting from the main characteristic numbers and the basic equations of atmospheric turbulent flow, we show what turbulence parameters are important to measure. Special attention is given to the various methods used to compute the turbulent fluxes. We analyse the range of scales which has to be measured to properly capture the eddies contributing to the turbulent transfers. This range of scales determines what sensors can be used in the atmospheric surface layer and in the ABL. We describe the most widely used instruments and their performances. The principal platforms used to deploy these instruments are examined. Aircraft are described in more details, because they allow a thorough exploration of the ABL. In the last section, some examples of ABL turbulence signals measured in various conditions are presented. These examples illustrate horizontally homogeneous turbulence as well as inhomogeneous signals for which standard analysis techniques cannot be used. We show how some recent techniques, like wavelet transforms, can help to investigate this kind of signal. At the end, we present what would be interesting to do in the near future for the study of ABL turbulence. 相似文献
11.
X. F. Guo X. H. Cai L. Kang T. Zhu H. S. Zhang 《Theoretical and Applied Climatology》2009,96(3-4):281-290
Based on the micrometeorological measurements at a heterogeneous farmland in South China, this work detects the effects of vegetative heterogeneity and patch-scale harvest on the energy balance closure and turbulent fluxes. As a quality control, the integral turbulent characteristics are analyzed in the framework of Monin-Obukhov similarity theory. Spatial representativeness of the measurements is studied in terms of footprint and source area. Firstly, in two wind sectors, the nondimensional standard deviations of turbulent quantities generally agree with some foregoing studies. Discrepancies exist in the other sectors due to the instrument-induced flow distortion. Secondly, energy balance closure is examined with two types of linear regression, which confirms that mismatching source areas between the available energy and turbulent fluxes have no preference to either energy “deficit” or “surplus”. Thirdly, turbulent fluxes exhibit greater variability when they represent smaller source areas. The patch-scale harvest adjacent to the flux mast causes notable increase and decrease in the sensible heat and latent heat fluxes, respectively, while the CO2 exchange almost vanishes after the harvest. Interestingly, energy balance closure is less influenced despite the notable effects on the turbulent fluxes and Bowen ratio, implying that the energy balance closure check may mask some variability in the turbulent fluxes. Thus, to adjust the heat fluxes with a single “closure factor” for a perfect closure is dangerous at a patchy site. 相似文献
12.
We examine the performance of several methods to estimate meteorological inputs for modelling dispersion in urban areas during
convective conditions. Sensible heat flux, surface friction velocity and turbulent velocities are estimated from measurements
of mean wind speed and the standard deviation of temperature fluctuations at a single level on a tower at two suburban sites
and at one urban site in Riverside, California. These estimates are compared with observations made at these sites during
a field study conducted in 2007. The sensible heat flux is overestimated in the urban area, while it is underestimated at
a suburban site when temperature fluctuations are used in the free convection formulation to estimate heat flux. The bias
in heat flux estimates can be reduced through a correction that depends on stability. It turns out that the bias in heat flux
estimates has a minor effect on the prediction of surface friction velocity and turbulent velocities. Estimates of sensible
heat flux, surface friction velocity and turbulent velocities are sensitive to estimates of aerodynamic roughness length,
and we suggest estimating the aerodynamic roughness length through detailed micrometeorological measurements made during a
limited field study. An examination of the impact of the uncertainty in estimating surface micrometeorology on concentrations
indicates that, at small distances from a surface release, ground-level concentrations computed using estimates of heat flux
and surface friction compare well with the those based on observed values: the bias is small and the 95% confidence interval
of the ratio of the two concentrations is 1.7. However, at distances much larger than the Obukhov length, this confidence
interval is close to 2.3 because errors in both friction velocity and heat flux affect plume spread. Finally, we show that
using measurements of temperature fluctuations in estimating heat flux is an improvement on that based on the surface energy
balance, even when net radiation measurements are available. 相似文献
13.
L. R. Tsvang B. M. Koprov S. L. Zubkovskii A. J. Dyer B. Hicks M. Miyake R. W. Stewart J. W. McDonald 《Boundary-Layer Meteorology》1973,3(4):499-521
In the summer of 1970 an international intercomparison of turbulence measurement sensors was carried out at the Tsimlyansk field station of the Institute of Atmospheric Physics (IFA) Academy of Sciences of the U.S.S.R. Improved sonic anemometer sensors of the IFA were compared with the Kaijo sonic used by the Canadian group and with the fluxatron from CSIRO, Australia.Results from the experiment indicate that spectral and cospectral shapes are basically similar between the sonic anemometers. The spectra and cospectra of the fluxatron in the high-frequency region showed an attenuation which can be explained in terms of the response characteristics of the fluxatron. The maintenance of absolute calibration of the sensors in the field was found to be difficult, but when properly corrected for this variation, the measurements were found to agree within 13%, with a standard error of 0.2. A single point observation of turbulent fluxes at a few meters above the surface and averaged over a period of the order of one hour was shown to be representative of turbulent fluxes at the site. 相似文献
14.
Large sudden wind-direction shifts and submeso variability under nocturnal conditions are examined using a micrometeorological network of stations in north-western Victoria, Australia. The network was located in an area with mostly homogeneous and flat terrain. We have investigated the main characteristics of the horizontal propagation of events causing the wind-direction shift and not addressed in previous studies. The submeso motions at the study site exhibit behaviour typical of flat terrain, such as the lower relative mesovelocity scale and smaller cross-wind variances than that for complex terrain. The distribution of wind-direction shifts shows that there is a small but persistent preference for counter-clockwise rotation, occurring for 55% of the time. Large wind-direction shifts tend to be associated with a sharp decrease in air temperature (74% of the time), which is associated with rising motion of cold air, followed by an increase in turbulent mixing. The horizontal propagation of events was analyzed using the cross-correlation function method. There is no preferred mean wind direction associated with the events nor is there any relationship between the mean wind and propagation directions. The latter indicates that the events are most likely not local flow perturbations advected by the mean flow but are rather features of generally unknown origin. This needs to be taken into account when developing parametrizations of the stable boundary layer in numerical models. 相似文献
15.
Chad W. Higgins Martin Froidevaux Valentin Simeonov Nikki Vercauteren Caitlin Barry Marc B. Parlange 《Boundary-Layer Meteorology》2012,143(2):379-391
Taylor’s frozen turbulence hypothesis is the central assumption invoked in most experiments designed to investigate turbulence
physics with time resolving sensors. It is also frequently used in theoretical discussions when linking Lagrangian to Eulerian
flow formalisms. In this work we seek to quantify the effectiveness of Taylor’s hypothesis on the field scale using water
vapour as a passive tracer. A horizontally orientated Raman lidar is used to capture the humidity field in space and time
above an agricultural region in Switzerland. High resolution wind speed and direction measurements are conducted simultaneously
allowing for a direct test of Taylor’s hypothesis at the field scale. Through a wavelet decomposition of the lidar humidity
measurements we show that the scale of turbulent motions has a strong influence on the applicability of Taylor’s hypothesis.
This dependency on scale is explained through the use of dimensional analysis. We identify a ‘persistency scale’ that can
be used to quantify the effectiveness of Taylor’s hypothesis, and present the accuracy of the hypothesis as a function of
this non-dimensional length scale. These results are further investigated and verified through the use of large-eddy simulations. 相似文献
16.
Three types of thermocouple sensing elements were used to measure potato leaf temperatures in the uppermost layer of the canopy. A comparison between thermocouple hypodermic needles inserted into the midrib of the potato leaf and thermocouple clips fastened on its surface gave near-identical temperature readings. Miniature screens housing thermocouple sensors exposed at the upper canopy level and measuring ambient air temperatures showed excellent agreement (r = 0.996, N = 68) with potato leaf temperatures. This was not the case for temperatures recorded at the standard meteorological screen 2 m above the ground. It is therefore suggested that for micrometeorological measurements, where accuracy of crop temperature values is biologically significant, accurate information can be obtained with such miniature screens. 相似文献
17.
青藏高原东坡理塘地区近地层湍流通量与微气象特征研究 总被引:4,自引:2,他引:2
简要介绍青藏高原东坡理塘大气综合观测站长期观测试验,并利用2006年1、7月资料分别代表该站冬季和夏季,初步分析和比较该地区冬、夏季近地层微气象特征和湍流通最输送情况,得到了以下结论:(1)风、温、湿均表现出明显的日变化特征.冬季风速值平均大于夏季,风速极大值均出现在下午;冬季温度梯度早晚大,白天小,而夏季均较小;湿度梯度早晚大于白天.(2)中件条件下风速廓线对数关系表现为一条直线而非中件条件下略偏离对数关系,晚上均有逆温现象出现.在一定高度能观测到较弱的逆湿现象.(3)冬季以感热为主,潜热值较小,夏季以潜热为主,但感热也较大,且冬季通量值要远小于夏季;冬季动量通量平均大于夏季,二氧化碳通量远小于夏季;浅层(地面以下2和5 cm)土壤热通量也具有明显的日变化特征,白天从土壤吸收热量,夜间则放出热量.(4)地面热源强度具有显著的日变化特征:白天为强热源,夜间冷热源特征不明显.冬季和夏季全天平均表现为热源,但夏季强度远大于冬季,平均达到134 W/m2左右,冬季仪约35.3 W/m2. 相似文献
18.
Gerhard Kramm 《Boundary-Layer Meteorology》1989,48(1-2):157-175
A diagnostic deposition model based on generally accepted micrometeorological ideas on the transfer of momentum, sensible heat and matter near the Earth's surface is presented. The parameterization of fluxes is based on the flux-gradient relationships in the turbulent region of the surface layer and the sublayer Stanton number as well as the Reynolds analogy between concentration, temperature and wind velocity distributions in the underlying sublayer. The model requires only vertical profile data of wind velocity, dry- and wet-bulb temperatures and trace gas concentrations from the turbulent part of the surface layer.The method has been applied to vertical profile data collected in field experiments such as the GREIV I 1974 project and the Great Plains Turbulence Project. In order to illustrate the way in which the model can be used to evaluate deposition fluxes and velocities of reactive trace gases, it has been applied to observed concentrations of NO, NO2 and ozone.Presented at the Symposium on Environmental Meteorology, Würzburg, FRG, September 29 to October 1, 1987. 相似文献
19.
Otávio C. Acevedo Osvaldo L. L. Moraes Gervásio A. Degrazia Luiz E. Medeiros 《Boundary-Layer Meteorology》2006,119(1):41-55
The determination of nocturnal surface fluxes in low wind conditions is a major problem for micrometeorological studies. The
eddy correlation technique, extensively used in field measurements, becomes inappropriate if not enough turbulent activity
exists. At the same time, the phenomenon of turbulence intermittency is responsible for the existence of localized events
of short duration within which a large fraction of the total nighttime scalar exchange occurs. The scalar flux within a certain
intermittent event varies considerably depending on the window used for the flux calculation. In many cases, events with very
different time durations occur in the same night, and therefore, the proper determination of the surface flux would require
averaging within data windows of different sizes for each event. In this work, the surface exchanges of temperature, moisture
and carbon dioxide are analysed at a micrometeorological tower at southern Brazil. Intermittent turbulence is a common occurrence
at the location. The analysis shows that the fluxes vary with turbulence intensity and the estimation technique. A variable-window
size method for flux estimation is suggested and shown to cause an increase in the magnitude of the nocturnal surface fluxes 相似文献
20.
An automated system for measuring the dry deposition fluxes of SO2 on a routine basis based on the micrometeorological gradient technique has been developed for application over grassland and other short vegetation. The ability of the system to determine turbulent exchange parameters such as the friction velocity u
* and the heat flux H was investigated by comparison with an automated eddy correlation system.Determinations of u
* and H by both methods have generally been found to be in very good agreement for 20 min averages. Aerodynamic resistances derived from both systems showed no systematic differences but individual values differed considerably. From the analysis it appeared that in addition to classical rejection criteria on wind speed and inhomogeneity, etc., periods with large shifts in wind direction also have to be removed from the data set before interpretation. 相似文献