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1.
一个预测沿岸陆中熏烟扩散的随机游动模式 总被引:1,自引:1,他引:1
本文建立了一个对流边界层中的随机游动扩散模式,并用KNRC试验No:64的资料作了难,然后考虑混合层顶不规则夹卷界面的作用,应用于楠克沿岸陆上熏烟扩散问题,将模拟的地面轴线浓度与观测资料以及三个烟扩散预测模式的结果作了比较,结果表明:模式的模拟效能良好,所有数值计算均可在微机上实现,便于推广应用,更具实用性。 相似文献
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本文针对熏烟扩散过程建立了粒子烟团轨迹模式,利用该模式成功地模拟日出后逆温层破坏的熏烟扩散过程和TIBL下的熏烟扩散过程,证实了所建模式在模拟熏烟扩散方面的可行性和适用性,揭示了两种熏烟扩散过程中的熏烟扩散特征及其随时间的变化。将粒子烟团轨迹模式和提供平均场和湍流场输入的三维非静力能量团合模式相联接,可以较好地预测城市逆温层破坏条件下和沿岸陆上TIBL中的熏烟扩散特征及其随时间的变化。 相似文献
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本文运用随机游动模拟方法改进建立一种粒子--烟团模式,成功地模拟了对流边界层条件下污染物扩散,粒子--烟团模式的模拟结果与水槽试验的结果吻合较好。数值模拟试验结果表明粒子--烟团模式能在旋放粒子数较少,从而运行时间很短的情况下,得到优于一般随机游动模式的模拟性能。用KNRC的资料对模拟性能作一验证,表明模式也能很好地模拟实际大气中不同稳定度情况下的扩散。 相似文献
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本文运用随机游动模拟方法改进建立一种粒子—烟团模式,成功地模拟了对流边界层条件下污染物扩散,粒子—烟团模式的模拟结果与水槽试验的结果吻合较好。数值模拟试验结果表明粒子—烟团模式能在施放粒子数较少,从而运行时间很短的情况下,得到优于一般随机游动模式的模拟性能。用KNRC的资料对模式的模拟性能作一验证,表明模式也能很好地模拟实际大气中不同稳定度情况下的扩散。 相似文献
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一个对流边界层中的随机扩散模式 总被引:1,自引:0,他引:1
通过对对流边界层(CBL)湍流结构的分析,首次提出用两种不同尺度的湍流模拟CBL中的铅直扩散.在此基础上发展了一个随机扩散模式,并用它模拟了典型对流条件下两种高架连续点源的扩散.与Willis水槽模拟和Lamb等人数值模拟以及CONDORS计划外场试验的结果的比较表明,本模式能成功地模拟CBL中的横向积分浓度.与其它数值模式相比,还具有输入参数少、计算量极小和更加简单实用的优点. 相似文献
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对流边界层中粒子随机扩散模式和高斯模式的比较 总被引:1,自引:1,他引:1
用粒子随机扩散模式和高斯模式模拟的对应3种源高的横风向各分浓度的结果与水槽试验的结果进行比较,发现粒子随机扩散模式能较好地模拟出水槽试验结果,说明该模式能用来模拟对流边界层的扩散,而高斯模式不能完全反映对流边界层的扩散。比较两种模式的模拟结果,发现粒子随机扩散模式由于考虑了对流边界中由卷流和热泡引起的垂直方向上湍流的非均一性,比高斯模式能较好的模拟出污染物在垂直方向上充分混合较快、水平方向上扩散范 相似文献
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本文描述了基于PIC方法的三维大气扩散粒子分裂(ADPS)模式,并用解析解和1988年的广州地区现场观测资料验证了本模式.模式根据局地均匀和定常假设引入大粒子概念、烟团扩散原理和大粒子分裂技术,并运用了嵌套网格.ADPS模式用于模拟气态污染物在大气中的散布,同时也具备模拟TSP扩散的效能. 相似文献
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Near-instantaneous vertical scans ofpower plant plumes, sampled by a lidar over three days as part ofthe 1995 Kwinana Coastal Fumigation Study, are analysed to obtainhourly-averaged total dispersion moments up to fourth order, andalso the relative and meander spreads. Two distinct fumigationcases, termed as neutral and stable cases, are observed dependingon whether the plume transport prior to fumigation takes place ina neutral atmosphere, or in a stable region above the neutralatmosphere. Plumes in the stable case are observed to undergoslower fumigation. The mean spreads display contrasting behavioursfor the two fumigating cases, while the vertical skewness shows anegative peak value of about -1 for the neutral case and -2for the stable case in the fumigation zone. The lateral skewnessis positive with a peak value of about unity for both cases, andis attributed to wind directional shear within the thermalinternal boundary layer. The vertical kurtosis is greater than theGaussian value of 3 in the fumigation zone, while the lateralkurtosis is scattered about this value. A recently-developedskewed probability density function model with wind shear isapplied to describe the fumigation data. Overall, the modelsimulates the observed vertical and lateral statistics well up tothe fourth order, except for the lateral skewness and kurtosisvalues in the stable case, which is probably due to the lidar'srange and sensitivity constraints and an inadequate sample size.Although the lateral turbulent diffusion in the model is Gaussian(i.e., zero skewness), the inclusion of wind shear in the model ismanifested in the predicted lateral skewness being greater thanzero in the fumigation zone, and of similar magnitude to the lidardata in the neutral case. 相似文献
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Ashok K. Luhar 《Boundary-Layer Meteorology》2002,102(1):1-38
The mean concentration distributionwithin a plume released from a point source in the atmosphericboundary layer can be greatly influenced by the systematic turningof wind with height (i.e. vertical wind direction shear). Such aninfluence includes a deflection of the plume centroid, with anassociated shearing of the vertical plume cross-section, and anenhancement of dispersion, in the horizontal plane. Wind directionshear is normally not accounted for in coastal fumigation models,although dispersion observations with shear acting as acontrolling parameter are not uncommon. A three-dimensionalLagrangian stochastic model is used to investigate the influenceof uniform wind direction shear on the diffusion of a point-sourceplume within the horizontally homogeneous convective boundarylayer, with the source located at the top of the boundary layer.Parameterisations are developed for the plume deflection andenhanced dispersion due to shear within the framework of aprobability density function (PDF) approach, and compared with theLagrangian model results. These parameterisations are thenincorporated into two applied coastal fumigation models: a PDFmodel, and a commonly used model that assumes uniform andinstantaneous mixing in the vertical direction. The PDF modelrepresents the vertical mixing process more realistically. A moreefficient version of the PDF model, which assumes a well-mixedconcentration distribution in the vertical at large times, isapplied to simulate sulfur dioxide data from the Kwinana CoastalFumigation Study. A comparison between the model results and thedata show that the model performs much better when the wind-sheareffects are included. 相似文献
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A Lagrangian stochastic (LS) model, which is embedded into a parallelised large-eddy simulation (LES) model, is used for dispersion
and footprint evaluations. For the first time an online coupling between LES and LS models is applied. The new model reproduces
concentration patterns, which were obtained in prior studies, provided that subgrid-scale turbulence is included in the LS
model. Comparisons with prior studies show that the model evaluates footprints successfully. Streamwise dispersion leads to
footprint maxima that are situated less far upstream than previously reported. Negative flux footprints are detected in the
convective boundary layer (CBL). The wide range of applicability of the model is shown by applying it under neutral and stable
stratification. It is pointed out that the turning of the wind direction with height leads to a considerable dependency of
source areas on height. First results of an application to a heterogeneously heated CBL are presented, which emphasize that
footprints are severely affected by the inhomogeneity. 相似文献
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The Kwinana Coastal Fumigation Study: I – Program Overview, Experimental Design and Selected Results
B. L. Sawford A. K. Luhar J. M. Hacker S. A. Young I. -H. Yoon J. A. Noonan J. N. Carras D. J. Williams K. N. Rayner 《Boundary-Layer Meteorology》1998,89(3):359-384
Fumigation under sea-breeze conditions is a major feature of the air pollution meteorology in the coastal industrial region of Kwinana, south of Perth in Western Australia. An intensive field experiment on fumigation was carried out in the region in early 1995 with the objective of using the measured data to develop and test a shoreline fumigation model. Fumigation of plumes from the Kwinana Power Station was studied using an instrumented research aircraft, radiosonde balloons, meteorological stations, a lidar, a mobile surface sampler, and sonic anemometers. The study has yielded a detailed and high quality data set as a result of both the range of observations undertaken and of the regularity of the sea-breeze conditions under scrutiny. The details of the experiment are summarised in this paper and some typical results are presented. 相似文献
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Effects of stratocumulus clouds on the dispersion of contaminants are studied in the nocturnal atmospheric boundary layer. The study is based on a large-eddy simulation (LES) model with a bulk parametrization of clouds. Computations include Lagrangian calculations of atmospheric dispersion of a passive tracer released from point sources at various heights above the ground. The results obtained show that the vertical diffusion is non-Gaussian and depends on the location of a source in the boundary layer. 相似文献
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We present a Lagrangian stochastic model of vertical dispersion in the convective boundary layer (CBL). This model is based on a generalized Langevin equation that uses the simplifying assumption that the skewed vertical velocity probability distribution is spatially homogeneous. This approach has been shown to account for two key properties of CBL turbulence associated with large-scale coherent turbulent structures: skewed vertical velocity distributions and long velocity correlation time. A 'linear-skewed' form of the generalized Langevin equation is used, which has a linear (in velocity) deterministic acceleration and a skewed random acceleration. 'Reflection' boundary conditions for selecting a new velocity for a particle that encounters a boundary were investigated, including alternatives to the standard assumption that the magnitudes of the particle incident and reflected velocities are positively correlated. Model simulations were tested using cases for which exact, analytic statistical properties of particle velocity and position are known, i.e., well-mixed spatial and velocity distributions. Simulations of laboratory experiments of CBL dispersion show that (1) the homogeneous linear-skewed Langevin equation model (as well as an alternative 'nonlinear-Gaussian' Langevin equation model) can simulate the important aspects of dispersion in the CBL, and (2) a negatively-correlated-speed reflection boundary condition simulates the observed dispersion of material near the surface in the CBL significantly better than alternative reflection boundary conditions. The homogeneous linear-skewed Langevin equation model has the advantage that it is computationally more efficient than the homogeneous nonlinear-Gaussian Langevin equation model, and considerably more efficient than inhomogeneous Langevin equation models. 相似文献
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The temporal evolution and spatial structure of the aerosol layer (AL) height as observed with an airborne downlooking lidar over the Swiss Alps were investigated with a three-dimensional mesoscale numerical model and a particle dispersion model. Convective boundary-layer (CBL) heights were derived from the mesoscale model output, and the behaviour of surface-released particles was investigated with the particle dispersion model. While a previous investigation, using data from the same field study, equated the observed AL height with the CBL height, the results of the current investigation indicate that there is a considerable difference between AL and CBL heights caused by mixing and transport processes between the CBL and the free atmosphere. CBL heights show a more terrain-following behaviour and are lower than AL heights. We argue that processes causing the difference between AL and CBL heights are common over mountainous terrain and that the AL height is a length scale that needs to be considered in air pollution studies in mountainous terrain. 相似文献
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对流边界层(CBL)中的污染扩散是非高斯型的。本文在下列三个假设下建立了双高斯型几率分布函数(PDF)模式:1.对流边界层任一确定高度铅直速度W的几率分布函数pw由两个高斯分布迭加而成;2.从污染源释放的粒子具有源高的铅直速度几率分布,且其轨迹是线性的;3.粒子在地面的反射为全反射,在混合层高度Zi为全反射或有部分吸收。然后分析了三个高度上铅直速度W的一些统计特征量,比较了由PDF模式计算的横风向积分浓度和Lamb的数值模拟[1-3],Deardorff的水槽模拟[4-6]结果,并用美国CONDORS计划的外场试验资料[7]对PDF模式进行了验证,结果均相当一致。 相似文献
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K. Shankar Rao 《Boundary-Layer Meteorology》1999,90(3):541-549
Lagrangian stochastic models are well-suited for modeling dispersion in the stable boundary layer, especially in complex terrain. This note briefly describes the formulations and application of a Lagrangian stochastic model to predict dispersion of tracers released within nocturnal drainage flows. 相似文献