共查询到20条相似文献,搜索用时 15 毫秒
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F. Fanaki 《Boundary-Layer Meteorology》1986,37(1-2):197-207
The application of air quality models requires a knowledge of the meteorological structure of the lower atmosphere. This information can be obtained by the use of acoustic sounders, or airborne sondes. Such studies were carried out at the Athabasca Oil Sands area, Alberta, Canada, during summer and winter seasons. Two acoustic sounders were operated simultaneously at two topographically different locations 4 km apart. The sounding data were supplemented by meteorological observations from minisondes and a tethersonde at one location. The majority of the sounder data from both locations showed turbulent, thin layers often associated with the presence of inversion layers, particularly in the winter season. The data exhibited a number of features common to this type of topography. Both sounder echoes were characterized by a wavy structure indicating a vertical oscillation in the height of the echoes. Although agreeing in general, the data had a few differences especially close to the ground. To determine whether the return of the sounder signal was related to the actual atmospheric structure, the sounder records were compared with local temperature measurements. The result shows good agreement between the different systems. 相似文献
3.
S. K. Aggarwal S. P. Singal Ramesh K. Kapoor B. B. Adiga 《Boundary-Layer Meteorology》1980,18(4):361-371
Simultaneous observations were made by an acoustic sounder and on a meteorological tower during the month of May 1978 at the Atomic Power Station Tarapur. The probing range of the acoustic sounder was 700 m. The meteorological tower could sense wind and temperature at various levels up to a height of 120 m.The site being close to the sea shore, the thermal environment of the lower atmosphere is controlled mostly by land and sea breeze circulations. Thermal convective structures were seen during the daytime and also at night. The frequency of plume formation and the height of the plumes were, however, low during the night. The convective boundary layer in the daytime ranged from 400–500 m while at night it was mostly under 200 m. The observation of thermals at night is explained by the presence of a naturally stable marine layer above 30 m at this site. In the morning hours, winds suddenly change their direction allowing advection of a land breeze which is responsible for the formation of surface-based shear echoes to a height of 200 m during the transition period and for the subsequent development of an elevated layer due to mixing of two different air masses. A marine layer was also seen over Tarapur for a few days during the early evening and night hours. Its height was mostly around 400 m. It may indicate the presence of a subsidence inversion at Tarapur. The need for collection of supporting meteorological data to a height of 500 m by tethered balloon or some other suitable in-situ technique is stressed. 相似文献
4.
Acoustic sounder and tower data obtained at the Boulder Atmospheric Observatory (BAO) are used to examine several features of the wave and turbulence structure associated with a disturbed nocturnal inversion. General features, including mean fields and Richardson number, for the case selected for this study are presented. Spectral analysis of the tower data reveals a separation of energy into wavelike and turbulent fluctuations. Analysis of the heat flux, however, shows upward counter-gradient fluxes in the vicinity of a low-level jet and near the top of the inversion. Cospectral analysis shows that the major contribution to the upward heat flux occurs at frequencies that would normally be considered characteristic of waves. In some cases, the upward flux is associated with a phase shift between vertical velocity w and fluctuating temperature θ different from the quadrature relation that would be expected of internal waves. Time series analysis reveals that these unexpected positive fluxes occur in relatively short bursts. Analysis of time series of θ and w in other cases, as well as inspection of acoustic sounder records, shows that sometimes such upward fluxes can result from a combination of wave motion and horizontal temperature advection. In this case the advection is associated with a shallow cold front. 相似文献
5.
Ann-Sofi Smedman 《Boundary-Layer Meteorology》1988,44(3):231-253
Boundary-layer measurements conducted at the Marsta site in Sweden from a winter-time situation (23–25 Feb.) with stable stratification have been analysed. The data comprise wind and temperature profile measurements up to 30 m, turbulence measurements at 2, 6 and 30 m and Doppler acoustic sounder data up to about 150 m. The upwind fetch at the site is flat and free from obstacles to a distance of ca 5 km for the particular sector chosen for the experiment.During the night, a two-layer vertical structure developed. Analysis of power spectra, co-spectra and variances in a shallow and very stable turbulent boundary layer near the ground show that the turbulence is fully developed and follow the universal behaviour.Above, at a height of 30 m, another turbulent layer is produced by increased wind shear near a low-level jet. This turbulent upper layer can be regarded as a layer of free shear flow. At this height, there also exist wave-turbulence interactions at low frequencies which sometimes cause a countergradient heat flux. 相似文献
6.
C. B. Emmanuel 《Boundary-Layer Meteorology》1973,5(1-2):19-27
Remote sensing of the lower planetary boundary layer in the vicinity of a meteorological tower on many occasions reveals the existence of shear instability (Kelvin-Helmholtz) waves. In general, such waves are found within shallow strata which are marked by strong thermal stability and large vertical wind shear. The independent and concurrent measurements of the vector wind and temperature, made on a 152-m high tower, allow the construction of wind and temperature profiles. From such measurements, the Richardson number profile is constructed as well as the instability regime according to Drazin's criterion. The results show that regions of shear-instability waves as depicted by the remote sensor (an acoustic sounder) agree well with Drazin's instability regime, and that within such regions the Richardson number is indeed 0.25. 相似文献
7.
The vertical velocity field and the convective plumes in the atmospheric boundary layer have been observed during morning hours with the acoustic Doppler sounder of the C.R.P.E. A method for plume determination using acoustic soundings in the well-mixed layer is presented. Using Telford's 1970 and Manton's 1975 models, a comparison is made between the predictions of the models and the plume properties as observed by the Doppler sodar. The mean plume velocity is found to be parabolic. It is shown, restricting Monin and Obukhov similarity to conditions inside plumes and using only vertical velocity within plumes, that the observed convective plumes carry nearly sixty percent of the sensible heat flux at the top of the surface layer. 相似文献
8.
Simultaneous observations were made of the Marine Boundary Layer at Tarapur, a site near Bombay on the sea coast, by acoustic sounder and instrumented tower. The meteorological tower was used to sense wind and temperature at various levels up to a height of 120 m while the acoustic sounder was used to examine the thermal structure of the boundary layer up to a height of 700 m. Data recorded for the year 1982 have been analysed.Analysis of the data shows that while the normal structures of thermal echoes and shear echoes represent the mixing depth of the atmospheric boundary layer, the often observed elevated layers are due to sea breeze reversals with their base giving a measure of the depth of the sea-breeze circulation during the day. A sea breeze has been detected during both spring (March to May) and autumn (October to December) months. The onset times are around 1000 hr during spring months and around noon during the autumn period, the height of development being respectively up to 500 and 350 m. The capability of the sodar to detect the base and thickness of the sea breeze, is clearly revealed. 相似文献
9.
Turbulence structure in temperature inversions and in convection fields as observed by doppler sodar
Weill A. Baudin F. Goutorbe J. P. Van Grunderbeeck P. Leberre P. 《Boundary-Layer Meteorology》1978,15(3):375-390
The structure of turbulence in an inversion layer and in an homogeneous convective field of the planetary boundary layer is
described. In the first part of the paper, we validate the sodar estimates of turbulent dissipation, by using measurements
with an hot-wire anemometric system in situ. Limitations of an ε measurement technique using structure function calculations
are given, taking account of atmospheric properties and acoustic Doppler instrumental effects.
By comparison between isopleths of backscattering intensity and of turbulent dissipation rates, we observe that in the early
morning, turbulence is advected by mechanical turbulence generated by wind shear. The same mechanism seems to be operating
in the case of an inversion layer capping thermal instability, when the convective activity is not too greatly developed.
A turbulent kinetic energy budget is examined using aircraft, sodar, and tower measurements. This indicates a constant turbulent
dissipation profile through a deep convective layer. 相似文献
10.
Operation of a monostatic acoustic sounder on the campus of The University of Calgary for the period March to September, 1976, has provided data on the atmospheric boundary layer over Calgary. The formation and dissipation of the nocturnal temperature inversion layer leaves a clear signature in the sounder records. A trend is discerned in which the nocturnal layer tends to form at sunset, whereas convective instability is established some 2–3 hours after sunrise. Comparison of sounder records with an extensive set of radiosonde temperature profiles has shown that the height of the inversion layer can be determined reliably when a single, dark, ground-based return is visible on the sounder charts. On many occasions, however, the sounder detects multiple structures in the atmosphere. In these cases, it is difficult to establish a systematic correspondence of the turbulent structure as observed in the sounder records with the temperature profile as observed by the radiosonde. 相似文献
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An acoustic echo sounder situated in downtown Toronto has been used to detect convective plumes in the planetary boundary layer and to measure, by means of the Doppler effect, the vertical air motions associated with them. The plumes observed were the order of 390 m in horizontal extent, were detectable to a height of about 400 m, and were characterized by peak upward velocities in excess of 1 m s?1. The sounder measurements are shown to be consistent with surface meteorological parameters, and suggest that free convection over an urban area of considerable surface roughness and non‐uniformity is not greatly different from that over uniform land surfaces or water. 相似文献
13.
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
14.
In this paper, measurements of the first 150 m of the atmospheric boundary layer obtained by a high-frequency acoustic mini-sounder are compared with measurements obtained by a full complement of instruments including sonic anemometers mounted on the Boulder Atmospheric Observatory tower. The acoustic mini-sounder, starting as low as 6 m from the ground, measures in the monostatic mode the profiles of the vertical wind speed, w, and of the temperature structure parameter, C T 2 with enhanced height resolution of the order of 1 m and time resolution of the order of 30 s. The results of the comparison show that the high-frequency mini-sounder is an effective atmospheric boundary-layer profiler that is also portable and relatively inexpensive. Measurements of the spectrum of C T 2 are presented that provide information on the local isotropy of the temperature field. Statistics of the variability of C T 2 in both stable and unstable conditions are also given. The sounder's capabilities are further demonstrated by some detailed observations of the structure and time evolution of a thermal plume root at noon and of a nocturnal, stably stratified layer in which a dynamic instability develops. The plume starts at a height of less than 5 m, possesses substantial internal structure, and includes vertical velocities in excess of 2 m s-1. 相似文献
15.
Tak Kee Cheung 《Boundary-Layer Meteorology》1991,57(3):251-274
Events in the stably stratified lower atmospheric boundary layer within the first several hundreds of meters at Barrow, Alaska were recorded from 27 March to 5 April 1990 using an acoustic sounder (sodar), a tethered balloon, radiosondes, and an instrumented meteorological tower. These events include ground-based and low-level inversion layers, gravity waves, breaking waves, and multiple-layer structures. Even though these events are commonly found in a stable boundary layer, it is perhaps surprising to find them in such a slowly changing environment and over a terrain that is essentially devoid of immediate orographic influence.Visiting Scientist at Wave Propagation Laboratory, NOAA/ERL 325 Broadway, Boulder, CO, 80303, U.S.A. 相似文献
16.
This paper describes how measurements of the movement of identifiable features at the edge of a turbulent plume can be interpreted to determine the properties of the mean flow and consequently, using plume theory, can be used to make estimates of the fluxes of volume (mass), momentum, and buoyancy in a plume. This means that video recordings of smoke rising from a chimney or buoyant material from a source on the sea bed can be used to make accurate estimates of the source conditions for the plume. At best we can estimate the volume flux and buoyancy flux to within about 5% and 15% of the actual values, respectively. Although this is restricted to the case of a plume rising in a stationary and unstratified environment, we show that the results may be of practical use in other more complex situations. In addition, we demonstrate that large-scale (turbulent) coherent structures at the plume edge form on a scale approximately 40% of the local (mean) plume half-width and travel at almost 60% of the average local (mean) velocity in the plume. 相似文献
17.
Ann E. Gargett 《大气与海洋》2013,51(4):483-508
Abstract This paper suggests that a “large‐eddy” technique may be used to determine ?, the rate of dissipation of turbulent kinetic energy per unit mass, from measurements of the largest energy‐containing scales of the turbulent velocity field. The suggestion has been examined using vertical velocity data from a narrow‐beam acoustic Doppler profiler and also direct measurements of ? (using airfoil probes) from a microscale profiler. Initial results are encouraging, rasing the possibility of simultaneously measuring space/time continuous fields of “mean” velocity, turbulent velocity and ? with near‐standard acoustic Doppler techniques. 相似文献
18.
Probability distributions of concentration fluctuations of a weakly diffusive passive plume in a turbulent boundary layer 总被引:4,自引:0,他引:4
Results are presented from an experimental investigation of turbulent dispersion of a saline plume of large Schmidt number (Sc=830) in a turbulent boundary-layer shear flow simulated in a laboratory water channel. The dispersion measurements are obtained in a neutrally buoyant plume from an elevated point source over a range of downstream distances, where both plume meandering and fine-structure variations in the instantaneous plume are important. High-resolution measurements of the scalar fluctuations in the plume are made with a rake of conductivity probes from which probability distributions of concentration at various points throught the plume are extracted from the time series.Seven candidate probability distributions were tested, namely, the exponential, lognormal, clipped normal, gamma, Weibull, conjugate beta, andK-distributions. Using the measured values of the conditional mean concentration,
, and the conditional fluctuation intensity,i
p
, the Weibull distribution provided the best match to the skewness and kurtosis over all downstream fetches. The skewness and kurtosis were always overpredicted by the lognormal probability density function (pdf), and underpredicted by the gamma pdf. The conjugate beta distribution for which the model parameters are determined using a method of moments based on the fluctuation intensity,i
p
, and skewness,S
p
, was capable of modeling the distribution of scalar concentration over a wide range of positions in the plume. 相似文献
19.
William Blumen 《Boundary-Layer Meteorology》1984,28(3-4):245-269
A detailed analysis of two nighttime drainage wind events that commenced on the evenings of 7 and 8 October, 1980 is presented. Data on wind velocity and temperature (10-s values), obtained from each of the eight instrumented levels of the Boulder Atmospheric Observatory, are used to construct 10-min means and root-mean-square values of all the variables. Additional information is provided by acoustic sounder data for 8 October.The analyses reveal that the passage of the drainage front occurs abruptly, between two 10-s observations, on both days. Relatively intense root-mean-square variability in the velocity and temperature fields accompanies the passage of the drainage front. In addition, the undercutting cold drainage air initiates significant variability in the vertical velocity field that extends above the 300 m level of the tower. The most significant variability in the other meteorological fields is primarily restricted to the lowest 150 m with the passage of the drainage front.A principal feature of the analysis is the delineation of Kelvin-Helmholtz instability and billow development, breakdown into turbulence and ultimate decay to a less turbulent state that occurs intermittently behind the drainage front. These features are interpreted in light of Thorpe's (1973a, b) experimental work on stability and turbulence in stratified shear flow and the predictions of linear instability theory. The interpretations are carried out by considering the distributions of the Richardson number, the peak shears of the mean flow and the vertical fluxes of horizontal momentum associated with the unstable growth of the disturbances. Additional comparisons are made between the turbulent structures in Thorpe's laboratory experiments and the turbulence exhibited in traces of the 10-s vertical velocity data measured at various levels both above and below the interface.The relevance of the present results to the design of future field programs, and to the observational data requirements that should be met to incorporate turbulent entrainment processes in models of pollutant dispersal is discussed. 相似文献
20.
T. J. Moulsley D. N. Asimakopoulos C. G. Helmis D. P. Lalas J. Gaynor 《Boundary-Layer Meteorology》1985,33(1):85-100
In this paper, we present some results on an experiment to test the accuracy and utility of a horizontally-aimed acoustic sounder. A high-frequency, high-resolution mini-sounder was mounted on the mast of the Boulder Atmospheric Observatory aimed in the cross-wind direction. Measurements of C
T
2, wind velocity and temperature and velocity variances were obtained under both stable and unstable conditions. These measurements were found to be in agreement with the equivalent values obtained, where appropriate, by the tower-fixed instrumentation and a vertically-pointed sounder, confirming the accuracy of the horizontal sounder. In addition, some information into the horizontal structure of plumes and gravity waves was obtained along with evidence of lack of excess attenuation at least for lengths within the unambiguous range of mini-sounders. 相似文献