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1.
本文建立了二阶矩闭合的大气边界层数值模式,并模拟了Wangara资料第33天09:00—18:00时对流边界层的发展过程。计算结果与实测资料比较吻合,同时利用该模式研究了高阶矩模式模拟对流边界层的可行性,结果指出:二阶矩方程中的湍流扩散项对模拟对流边界层内的挟卷和反梯度现象起主要作用。而局地时间变化项仅影响对流边界层内的边界湍流扩散项。因此,假如处理好二阶矩方程中的湍流扩散项,高阶矩模式和大涡模式一样可以很好地模拟对流边界层的发生、发展。 相似文献
2.
本文采用从大涡旋模拟结果得到的湍流交换系数K,用K模式对对流边界层的结构、发展以及其顶部夹卷作用进行了研究。结果表明:边界层顶部夹卷对对流边界层的发展有重要影响;另外,我们把这种从理论上来说仅适用于温度、湿度等标量的湍流交换系数K应用到风速分量的计算中,也取得较好效果。 相似文献
3.
用大涡模式研究对流边界层湍流 总被引:1,自引:0,他引:1
利用三维对流边界层的大涡模拟模式研究对流边界层湍流统计特征量,模拟结果与前人的同类模拟工作及实验观测结果相比较,得到了一致的结论.
相似文献
4.
利用 1 998年第 2次青藏高原野外试验中的多普勒声雷达探测、低空探测观测以及卫星观测资料对高原大气边界层内的对流现象进行分析研究。声雷达探测到了高原边界层内有强烈的对流活动。这种对流泡中心的垂直速度可超过 1m/s,并存在尺度为 1个多小时的周期性 ,表现为中小尺度的有组织的湍流活动。高原边界层强对流得以发展和维持的物理机制是 :强辐射加热、复杂的地形地貌形成的下垫面不均一性造成边界层斜压性、边界层内的平流活动等 ,这些现象都有利于对流的发展。在这些条件的作用下 ,边界层内可以产生一系列有组织的强湍流大涡旋活动 ,这些大涡旋形成的热泡在向上发展的过程中有的能够发生合并 ,变得更大也更为猛烈 ,达到凝结高度以上可形成对流云 ,并发生充分的对流混合。成云过程凝结潜热释放更有利于对流运动进一步发展 ,使对流云逐步发展成更大的对流云团 ,从而产生卫星云图中显示的云团发展过程。 相似文献
5.
黑河绿洲区不均匀下垫面大气边界层结构的大涡模拟研究 总被引:11,自引:4,他引:7
采用RAMS模式中大涡模拟的方法,加入高分辨率的植被和土壤资料,模拟了黑河(张掖地区)不均匀下垫面条件下大气边界层演变过程。分析了模拟的地表通量、边界层的平均结构和湍流二阶量,并用黑河试验的观测资料检验了模式的模拟性能。结果表明,模拟的平均结构较好地展现了不均匀下垫面条件下边界层内从稳定层结到混合层发展,夹卷层形成,底层逆温层出现,混合层过渡到残留层等的演变过程,呈现出了从初始的稳定边界层发展到对流边界层,最后又形成夜问稳定边界层的日变化规律。湍流二阶量的分析显示,在非均匀下垫面条件下边界层内湍流二阶量的垂直分布与边界层的发展相对应,白天湍流二阶量出现两个峰值,分别位于近地层和混合层顶。与观测资料和现有研究的对比表明,RAMS中陆面模块(LEAF)地表参数不能较好地反映黑河地区的植被特征,模拟的白天地表感热和潜热通量偏小,气温白天偏低、夜间偏高,相对湿度也有偏差。 相似文献
6.
风切变对边界层对流影响的大涡模拟研究 总被引:5,自引:0,他引:5
利用"西北干旱区陆-气相互作用野外观测实验"加密观测期间在敦煌站的观测资料以及大涡模式,模拟了对流边界层的发展,以及示踪物从混合层向残留层传输的时空变化。模拟的对流边界层的结构及演变特征与实测结果基本一致。进一步通过有风切变和无风切变的敏感性数值试验,研究了风切变对垂直速度、位温和示踪物浓度的水平分布以及示踪物传输高度的影响。研究结果表明,在有风切变的试验中(甚至风切变仅存在于近地层中),对流边界层的增长加强,而且示踪物被传输的高度也较高。与浮力驱动的对流边界层相比,由浮力和风切变共同驱动的边界层中上升气流较弱而下沉气流较强,但前者的上升气流与下沉气流的分布在垂直方向上更为倾斜。由于夹卷作用的增强,浮力和风切变共同驱动的对流边界层较浮力驱动的对流边界层暖。在夹卷层,浮力和风切变共同驱动的边界层对流的上升气流和下沉气流都比浮力驱动的边界层对流中的强,而且垂直速度的概率密度函数分布也较对称,其位温和示踪物浓度的概率密度函数分布也比浮力驱动的边界层中的平直。对湍流动能收支的分析也表明风切变对湍流动能有重要影响,尤其对夹卷层中的湍流动能切变产生项影响较大。示踪物浓度的概率密度函数垂直分布显示,浮力驱动的边界层中示踪物浓度随高度变化较小,而浮力和风切变共同驱动的边界层中示踪物浓度随高度递减,但是示踪物传输的高度比较高。 相似文献
7.
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
8.
本文建立了一个大气对流边界层模式,构造此模式时,假设对流边界层中水平动量和热量在垂直方向上的湍流输送、扩散是由大涡与小涡组成的系统完成的。文中,用此模式作了一实例模拟,计算结果表明:模拟的结果与实测的结果相当一致。 相似文献
9.
边界层湍流输送的若干问题和大气线性热力学 总被引:16,自引:9,他引:7
总结了大气线性热力学基本理论,讨论了大气边界层的能量和物质输送交叉耦合效应,还讨论了大气系统动力过程和热力过程的交叉耦合效应。分析指出:由于动力过程和热力过程的交叉耦合效应,导致大气边界层能量和物质输送过程除了湍流输送外,还应包括大气辐散和辐合运动对能量和物质的输送。非均匀下垫面大气边界层和对流边界层辐散和辐合运动对能量和物质输送是重要的。在这个基础上,讨论了非均匀下垫面和对流边界层地表能量的平衡问题,非均匀下垫面和对流边界层陆面过程边界层参数化等问题。这些研究不仅丰富了大气边界层物理理论,而且为克服当前大气边界层物理应用中所遇到的困难提供了理论依据。 相似文献
10.
11.
The viscous semigeostrophic solutions obtained for the baroclinic Eady wave fronts are analyzed for the generation of the cross-frontal temperature gradient in the boundary layer. In the case of free-slip boundaries, the cross-frontal gradient is maximally generated at the surface by meridional temperature advection. In the case of no-slip boundaries, surface friction reduces the meridional temperature advection in the boundary layer: The maximum generation occurs above the surface layer and the temperature gradient at the surface is maintained by vertical diffusion. The no-slip solution is compared with the Ekman-layer model solution. Errors are quantified for the use of the Ekman-layer model in the mature state of frontogenesis.The surface frontogenesis is found to be affected by diffusivity both directly and indirectly. The direct effect of diffusivity is represented explicitly by the diffusion term in the potential temperature equation. The indirect effect of diffusivity is related implicitly to the temperature advection caused by the viscous part of the ageostrophic motion whose horizontal velocity component is defined by the frictional wind deflection (away from the geostrophy). The direct effect of diffusivity is frontolytical, whilst theindirect effect of diffusivity is frontogenetic in the mesoscale vicinity of the front. The indirect effect of diffusivity contributes dominantly to the mesoscale surface frontogenesis for the free-slip case, but it is offset by the divergence of the dynamic part of the ageostrophic motion at the surface level for the non-slip case. 相似文献
12.
The Near-Calm Stable Boundary Layer 总被引:3,自引:3,他引:0
Larry Mahrt 《Boundary-Layer Meteorology》2011,140(3):343-360
For the near-calm stable boundary layer, nominally 2-m mean wind speed <0.5 ms−1, the time-average turbulent flux is dominated by infrequent mixing events. These events are related to accelerations associated
with wave-like motions and other more complex small-scale motions. In this regime, the relationship between the fluxes and
the weak mean flow breaks down. Such near-calm conditions are common at some sites. For very weak winds and strong stratification,
the characteristics of the fluctuating quantities change slowly with increasing scale and the separation between the turbulence
and non-turbulent motions can become ambiguous. Therefore, a new analysis strategy is developed based on the scale dependence
of selected flow characteristics, such as the ratio of the fluctuating potential energy to the kinetic energy. In contrast
to more developed turbulence, correlations between fluctuating quantities are small, and a significant heat flux is sometimes
carried by very weak vertical motions with large temperature fluctuations. The relation of the flux events to small-scale
increases of wind speed is examined. Large remaining uncertainties are noted. 相似文献
13.
大气边界层气象学研究综述 总被引:5,自引:2,他引:5
文中回顾了大气边界层气象学的发展历史,总结了目前大气边界层气象学的主要进展,并指出国内外在未来大气边界层气象学研究方面面临的一些主要科学问题,以及对未来大气边界层气象学的发展方向提出若干建议,同时还指出了大气边界层气象学在思想上和方法上应该注意的一些相关问题。 相似文献
14.
边界层特征参数对边界层顶垂直速度的影响 总被引:1,自引:1,他引:1
本文从正斜压及有层结时的边界层相似理论及阻力定律出发,由边界层顶垂直速度与地面湍应力的关系求出了层结、粗糙度、它们的水平梯度及地转风的水平梯度、斜压性对w的影响的解析式,可用于模式计算。计算结果表明层结影响可使w差1-2个量级,不稳定时粗糙度影响也使w差几倍。除地转涡度决定w外,地转风、层结稳定度和粗糙度及其水平梯度也起了重要作用,还讨论了斜压性的影响。 相似文献
15.
Radiative Processes in the Stable Boundary Layer: Part II. The Development of the Nocturnal Boundary Layer 总被引:2,自引:2,他引:0
J. M. Edwards 《Boundary-Layer Meteorology》2009,131(2):127-146
The interaction between radiation and turbulence in the stable boundary layer over land is explored using an idealized model,
with a focus on the surface layer after the evening transition. It is shown that finer vertical resolution is required in
transitional boundary layers than in developed ones. In very light winds radiative cooling determines the temperature profile,
even if similarity functions without a critical Richardson number are used; standard surface similarity theory applied over
thick layers then yields poor forecasts of near-surface air temperatures. These points are illustrated with field data. Simulations
of the developing nocturnal boundary layer are used to explore the wider role of radiation. Comparatively, radiation is less
significant within the developed stable boundary layer than during the transition; although, as previous studies have found,
it remains important towards the top of the stable layer and in the residual layer. Near the ground, reducing the surface
emissivity below one is found to yield modest relative radiative warming rather than intense cooling, which reduces the potential
importance of radiation in the developed surface layer. The profile of the radiative heating rate may be strongly dependent
on other processes, leading to quite varied behaviour. 相似文献
16.
Zbigniew Sorbjan 《Boundary-Layer Meteorology》2014,151(3):407-428
A single-column model of the evolving stable boundary layer (SBL) is tested for self-similar properties of the flow and effects of ambient forcing. The turbulence closure of the model is diagnostic, based on the K-theory approach, with a semi-empirical form of the mixing length, and empirical stability functions of the Richardson number. The model results, expressed in terms of local similarity scales, are universal functions, satisfied in the entire SBL. Based on similarity expression, a realizability condition is derived for the minimum allowable turbulent heat flux in the SBL. Numerical experiments show that the development of “horse-shoe” shaped, fixed-elevation hodographs in the interior of the SBL around sunrise is controlled by effects imposed by surface thermal forcing. 相似文献
17.
Alexander C. Taylor Robert J. Beare David J. Thomson 《Boundary-Layer Meteorology》2014,153(3):389-407
We investigate dispersion in the evening-transition boundary layer using large-eddy simulation (LES). In the LES, a particle model traces pollutant paths using a combination of the resolved flow velocities and a random displacement model to represent subgrid-scale motions. The LES is forced with both a sudden switch-off of the surface heat flux and also a more gradual observed evolution. The LES shows ‘lofting’ of plumes from near-surface releases in the pre-transition convective boundary layer; it also shows the subsequent ‘trapping’ of releases in the post-transition near-surface stable boundary layer and residual layer above. Given the paucity of observations for pollution dispersion in evening transitions, the LES proves a useful reference. We then use the LES to test and improve a one-dimensional Lagrangian Stochastic Model (LSM) such as is often used in practical dispersion studies. The LSM used here includes both time-varying and skewed turbulence statistics. It is forced with the vertical velocity variance, skewness and dissipation from the LES for particle releases at various heights and times in the evening transition. The LSM plume spreads are significantly larger than those from the LES in the post-transition stable boundary-layer trapping regime. The forcing from the LES was thus insufficient to constrain the plume evolution, and inclusion of the significant stratification effects was required. In the so-called modified LSM, a correction to the vertical velocity variance was included to represent the effect of stable stratification and the consequent presence of wave-like motions. The modified LSM shows improved trapping of particles in the post-transition stable boundary layer. 相似文献
18.
Data from a convective internal boundary layer (IBL) are analyzed by focusing on the instantaneousstructure of the top of the IBL instead of the time-average structure.A conditional averaging technique is developed todiscriminate between air from above the IBL and air from below the IBL , which alternately invade some instrument levels due tosubstantial variation of the top of the convective IBL.Sensitivity to the conditional sampling criteria is examined.Inside the IBL , buoyant and mechanicalproduction and dissipation dominate the turbulent kinetic energy budget.The horizontal advection and turbulent transport terms are smaller, but not negligible. The inferred pressure correlation term is negligible.Above the IBL , buoyant production and dissipation, although weak,dominate the turbulent kinetic energy budget. Shear generation andturbulent transport are smaller but significant. 相似文献
19.
20.
Equilibrium Evaporation and the Convective Boundary Layer 总被引:2,自引:1,他引:1
M. R. Raupach 《Boundary-Layer Meteorology》2000,96(1-2):107-142
A theory is developed for surface energy exchanges in well-mixed, partlyopen systems, embracing fully open and fully closed systems as limits.Conservation equations for entropy and water vapour are converted intoan exact rate equation for the potential saturation deficit D in a well-mixed, partly open region. The main contributions to changes in D arise from (1) the flux of D at the surface, dependent on a conductance gq that is a weighted sum of the bulk aerodynamic and surface conductances; and (2) the exchange flux of D with the external environment by entrainment or advection, dependent on a conductance ge that is identifiable with the entrainment velocity when the partly open region is a growing convective boundary layer (CBL). The system is fully open when ge/gq , and fully closed when ge/gq 0. The equations determine the steady state surface energy balance (SEB) in a partly open system, the associated steady-state deficit, and the settling time scale needed to reach the steady state. The general result for the steady-state SEB corresponds to the equations of conventional combination theory for the SEB of a vegetated surface, with the surface-layer deficit replaced by the external deficit and with gq replaced by the series sum (gq
-1 + ge
-1)-1. In the fully open limit D is entirely externally prescribed, while in the fully closed limit, D is internally determined and the SEB approaches thermodynamic equilibrium energy partition. In the case of the CBL, the conductances gq and ge are themselves functions of D through short-term feedbacks, induced by entrainment in the case of ge and by both physiological and aerodynamic (thermal stability) processes in the case of gq. The effects of these feedbacks are evaluated. It is found that a steady-state CBL is physically achievable only over surfaces with at least moderate moisture availability; that entrainment has a significant accelerating effect on equilibration; that the settling time scale is well approximated by h/(gq + ge), where h is the CBL depth; and that this scale is short enough to allow a steady state to evolve within a semi-diurnal time scale only when h is around 500 m or less. 相似文献