共查询到17条相似文献,搜索用时 218 毫秒
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本文建立一个三维非静力边界层模式对杭州湾附近复杂地形域区进行了数值模拟。要用常用的能量闭合和一 新的非局地反梯度闭合方案结合实测资料,以验证不同闭合方案模拟实际大气的能力,进一步分析三维边界层模式的效能结果表明,两种闭合方案都能较好的模拟澳陆环流及温度场,而反梯度闭合比能量闭合更能细致、敏感的模拟湍流场随地形的变化,且模拟结果与实测接近。 相似文献
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青岛地区边界层结构的数值模拟 总被引:8,自引:1,他引:8
本文建立了一个非静力的三维细网格边界层模式,对青岛地区复杂下垫面条件下的边界层结构和湍流特征作了数值模拟,模式采用能量闭合方案,舍弃了静力近似,以提高空间分辨率和模式精度。模拟以实测资料为初始输入,对该地区风场和湍流场作了较细致的模拟分析,与观测资料相比,结果合理地一致。结果表明了陡峭地形和不规则海岸线对局地风场和湍流场影响很大。 相似文献
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复杂下垫面地域边界层结构的三维细网格数值模拟 总被引:8,自引:0,他引:8
建立了一个可供复杂下垫面地域使用的非静力的三维细网格边界层模式,就复杂下垫面条件下的边界层结构和湍流特征作了以实例为对照的数值模拟试验,模式采用能量闭合方案,舍弃了静力近似。以实测资料为初台输入,同时还做了一些数值试验,分别获得了采用静力与非静力模式和不同闭合方案对PBL模型的结果。 相似文献
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一个描述小尺度深凹地形大气边界层的数值模式及数值模拟试验 总被引:1,自引:0,他引:1
文中针对小尺度深凹地形(深凹露天矿)的特点,建立了一个高分辨率的、三维非静力的大气边界层数值模式,模式中采用能量(E-ε)闭合方案。利用该模式对小尺度深凹地形边界层的三维结构进行了较充分的研究,并且有选择地对影响边界层结构的因子进行了数值试验。 相似文献
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海岸边界层的非静力模式 总被引:1,自引:0,他引:1
建立了一个3级非静力边界层模式,并采用一种新的非局地反梯度闭合方案在杭州附近复杂地形区进行了数值模拟。通过与实测资料和静力条件下的模拟结果的比较,进一步分析了非局地闭合下非静力3级边界层模式的效能。结果表明,该模式比静力模式更能合理地模拟海岩边界层的风温场和湍流场,且模拟结果与实测更接近。 相似文献
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深凹地形边界层风场与湍流场结构及扩散规律的数值研究 总被引:1,自引:0,他引:1
建立了一个模拟小尺度复杂地形边界层平均流场和湍流场结构分布特征的三维非静力细网格高阶矩湍流闭合模式,并将此模式与一个拉格朗日粒子随机游动大气扩散数值模式相联结,以边界层气象模式的输出作为扩散模式的输入,构成了一个大气扩和模拟系统,成功地模拟了某地实际深凹露天矿区和理想凹坑地形两种情况下的平均流场、雷诺应力和湍流通量场,分析了其分布特征,并模拟了矿坑内污染物的散布规律 相似文献
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三维山体过山气流流场特征的数值模拟 总被引:1,自引:0,他引:1
采用高阶矩湍流闭合方案,建立了一个细网格、高分辨率、三维非静力PBL数值模式,并由其模拟了三维山体条件下的流场结构和湍流场特征。为反映数值模拟结果的可靠性,对中性条件下三维山体流场进行了风洞试验。与数值模拟结果对比分析表明,数值计算与风洞试验结果有较好的一致性;使用该模式模拟山体条件下的流场结构能取得较好的结果;将模拟结果作为随机游动扩散模式的三维风场及湍流场资料输入,为复杂地形条件下大气污染的研 相似文献
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利用三维非静力能量闭合(E-ε)的边界层模式,以深圳海岸复杂地形进行了实际模拟。结果给出了该地区海陆风情形下气流和湍流孤变化特征。在海风发展盛期,气流方向由大面积的水域和内陆的位置决定,不规则海岸线对局地气流影响不大,夜间陆风时,不规则海岸线对局地气流影响较大,湍流能量高值颁在陆地上空的不稳定层内,水面上湍能很小。模拟结果与实测结果上比较吻合。 相似文献
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The damage caused by windstorms to forest ecosystems is often very heterogeneous. In order to improve the stability of forested landscapes, it is of great importance to identify the factors responsible for this spatial variability. The structure of the landscape itself may play a role, through possible influences of canopy heterogeneities on the development of turbulence. For the purpose of investigating the role of landscape fragmentation on turbulence development, we used a numerical flow model with a k–ε turbulence scheme model, previously validated in simple cases with well-defined surface changes (roughness change and forest edge flow). A series of two- and three-dimensional simulations were performed over a heterogeneous urban forested park in Europe, which was severely damaged in various places by the Lothar windstorm in December 1999. The model shows the development of a region of strong turbulence, resulting from the generation of large wind shear at the top of the canopy. A sensitivity study shows how the location, extension and intensity of the region depend on canopy characteristics such as the leaf density, the nature of the edge or the presence of gaps and clearings. Simulations performed in conditions representative of the windstorm show that the location of the damaged areas corresponds very closely to the regions where the turbulent kinetic energy was above a certain threshold. 相似文献
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山地露天矿自然通风风流与湍流结构的数值模拟 总被引:4,自引:2,他引:4
利用建立的三维非力能量闭合的大气边界层数值模式,研究了中性层结条件下某露天矿自然通风的风流和湍流结构特征及影响因子。研究表明:坑内水平风场在坑底或采壁处受地形的影响很大,在矿采深与开口宽度比较小或者来流风速随高度的切变不大时,坑内气流为平直型,有利于通风;反之坑内则形成环流,且在环流范围内较大的湍能,不利于通风,易产生高浓度的污染物。本模式模拟的结果还与风洞模拟和高阶闭合模式模拟的结果作了检验比较 相似文献
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Analysis on the Interaction between Turbulence and Secondary Circulation of the Surface Layer at Jinta Oasis in Summer 总被引:2,自引:0,他引:2
The kinetic energy variations of mean flow and turbulence at three levels in the surface layer were calculated by using eddy covariance data from observations at Jinta oasis in 2005 summer.It is found that when the mean horizontal flow was stronger,the turbulent kinetic energy was increased at all levels,as well as the downward mean wind at the middle level.Since the mean vertical flow on the top and bottom were both negligible at that time,there was a secondary circulation with convergence in the upper half and divergence in the lower half of the column.After consideration of energy conversion,it was found that the interaction between turbulence and the secondary circulation caused the intensification of each other.The interaction reflected positive feedback between turbulence and the vertical shear of the mean flow.Turbulent sensible and latent heat flux anomaly were also analyzed.The results show that in both daytime and at night,when the surface layer turbulence was intensified as a result of strengthened mean flow,the sensible heat flux was decreased while the latent heat flux was increased.Both anomalous fluxes contributed to the cold island effect and the moisture island effect of the oasis. 相似文献
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A Lagrangian stochastic model for the motion of heavy particles has been developed by coupling a stochastic model for the motion of fluid elements to the Stokes equations of motion of a particle in a turbulent flow. The effects of crossing trajectories and continuity are incorporated by generalising Csanady's (1963) ideas developed for stationary homogeneous turbulence; effects of turbulence inhomogeneity and nonstationarity are embodied in the stochastic model for the fluid motion.The model has been used particularly to examine the effects of turbulence nonstationarity through simulations of the dispersion of heavy particles in the decaying homogeneous turbulence which is obtained by Taylor-transforming grid turbulence. Significant differences from the stationary case occur, mainly as a result of the growth of the turbulent time scale with time.The importance of the source location in influencing both passive scalar and particle dispersion in grid turbulence is highlighted by the model and can be simply accounted for by nondimensionalisation using the r.m.s. turbulence velocity at the source and the mean travel time from the grid to the source as velocity and time scales, respectively. Reconciliation of the three different experiments of Snyder and Lumley (1971), Wells and Stock (1983) and Ferguson (1986) reporting heavy particle flow and dispersion statistics in wind tunnel grid turbulence has been attempted using this nondimensionalisation. A good correspondence between the various data sets was not obtained because the source in the Wells and Stock, and Ferguson experiments was located at the grid where the self-similar development of the turbulence which underlies the scaling is not appropriate.The model matches the data for the heaviest particles used by Snyder and Lumley reasonably well. For very light particles, it correctly reverts to the passive scalar limit, while the experimental data in general do not properly approach this limit. 相似文献
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A three-level model system for the prediction of local flows in mountainous terrain is described. The system is based upon
an operational weather prediction model with a horizontal grid spacing of about 10 km. The large-scale flow is transformed
to a more detailed terrain, first by a mesoscale model with grid spacing of about 1 km, and then by a local-scale model with
a grid spacing of about 0.2 km. The weather prediction model is hydrostatic, while the two other models are non-hydrostatic.
As a case study the model system has been applied to estimate wind and turbulence over Várnes airport, Norway, where data
on turbulent flight conditions were provided near the runway. The actual case was chosen due to previous experiences, which
indicate that south-easterly winds may cause severe turbulence in a region close to the airport. Local terrain induced turbulence
seems to be the main reason for these effects. The predicted local flow in the actual region is characterized by narrow secondary
vortices along the flow, and large turbulent intensity associated with these vortices. A similar pattern is indicated by the
sparse observations, although there seems to be a difference in mean wind direction between data and predictions. Due to fairly
coarse data for sea surface temperature, errors could be induced in the turbulence damping via the Richardson number. An adjustment
for this data problem improved the predictions. 相似文献
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Christophe Sanz 《Boundary-Layer Meteorology》2003,108(1):191-197
The k - turbulence model is a standard of computational software packages for engineering, yet its application to canopy turbulence has not received comparable attention. This is probably due to the additional source (and/or sink) terms, whose parameterization remained uncertain. This model must include source terms for both turbulent kinetic energy (k) and the viscous dissipation rate (), to account for vegetation wake turbulence budget. In this note, we show how Kolmogorov's relation allows for an analytical solution to be calculated within the portion of a dense and homogeneous canopy where the mixing length does not vary. By substitution within model equations, this solution allows for a set of constraints on source term model coefficients to be derived.Those constraints should meet both Reynolds averaged Navier–Stokes equationsand large-eddy simulation sub-grid scale turbulence modelling requirements.Although originating from within a limited portion of the canopy, the predictedcoefficients values must be valid elsewhere in order to make the model capable of predicting the whole canopy-layer flow with a single set of constants. 相似文献
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L. Mahrt Dean Vickers Jim Edson James M. Wilczak Jeff Hare Jørgen Højstrup 《Boundary-Layer Meteorology》2001,100(1):47-61
The adjustment of the boundary layer immediately downstream froma coastline is examined based on two levels of eddy correlation data collected on a mast at the shore and six levels of eddy correlation data and profiles of mean variables collected from a mast 2 km offshore during the Risø Air-Sea Experiment. The characteristics of offshore flow are studied in terms of case studies and inter-variable relationships for the entire one-month data set. A turbulent kinetic energy budget is constructed for each case study.The buoyancy generation of turbulence is small compared to shear generation and dissipation. However, weakly stable and weakly unstable cases exhibit completely different vertical structure. With flow of warm air from land over cooler water, modest buoyancy destruction of turbulence and reduced shear generation of turbulence over the less rough sea surface cause the turbulence to rapidly weaken downstream from the coast. The reduction of downward mixing of momentum by the stratification leads to smaller roughness lengths compared to the unstable case. Shear generation at higher levels and advection of stronger turbulence from land often lead to an increase of stress and turbulence energy with height and downward transport of turbulence energy toward the surface.With flow of cool air over a warmer sea surface, a convective internal boundary layer develops downstream from the coast. An overlying relatively thick layer of downward buoyancy flux (virtual temperature flux) is sometimes maintained by shear generation in the accelerating offshore flow. 相似文献