共查询到20条相似文献,搜索用时 15 毫秒
1.
Modelling surface turbulent fluxes in stable conditions 总被引:3,自引:0,他引:3
2.
为了研究大气环流模式次网格中尺度通量的参数化问题,本文发展了一个Pielke中尺度边界层与陆面过程的耦合模式,陆面过程模式中包括一个简单植被水热传输模式及一个裸土沙漠模式。利用这一耦合模式,对黑河试验区中沙漠和绿洲这种典型的非均匀下垫面进行了模拟,20多个数值试验的模拟结果表明:(1)中尺度通量在特定的情况下具有和湍流通量相当的重要性,因此,大尺度模式中对中尺度通量的参数化是十分必要的。(2)对于中尺度通量的发展存在一个明显的最优尺度和最优块数,即当绿洲尺度为60 km,3块时,中尺度通量最大。而且当块数增加到一定数目时,可以忽略非均匀效应。(3)背景风速的增大可以使中尺度通量减小;粗糙度的试验说明非均匀块之间的热力差异的减小可使中尺度通量非线性地减小。 相似文献
3.
Ning Zhang Quinton L. Williams Heping Liu 《Theoretical and Applied Climatology》2010,102(3-4):307-317
Landscape heterogeneity that causes surface flux variability plays a very important role in triggering mesoscale atmospheric circulations and convective weather processes. In most mesoscale numerical models, however, subgrid-scale heterogeneity is somewhat smoothed or not adequately accounted for, leading to artificial changes in heterogeneity patterns (e.g., patterns of land cover, land use, terrain, and soil types and soil moisture). At the domain-wide scale, the combination of losses in subgrid-scale heterogeneity from many adjacent grids may artificially produce larger-scale, more homogeneous landscapes. Therefore, increased grid spacing in models may result in increased losses in landscape heterogeneity. Using the Weather Research and Forecasting model in this paper, we design a number of experiments to examine the effects of such artificial changes in heterogeneity patterns on numerical simulations of surface flux exchanges, near-surface meteorological fields, atmospheric planetary boundary layer (PBL) processes, mesoscale circulations, and mesoscale fluxes. Our results indicate that the increased heterogeneity losses in the model lead to substantial, nonlinear changes in temporal evaluations and spatial patterns of PBL dynamic and thermodynamic processes. The decreased heterogeneity favor developments of more organized mesoscale circulations, leading to enhanced mesoscale fluxes and, in turn, the vertical transport of heat and moisture. This effect is more pronounced in the areas with greater surface heterogeneity. Since more homogeneous land-surface characteristics are created in regional models with greater surface grid scales, these artificial mesoscale fluxes may have significant impacts on simulations of larger-scale atmospheric processes. 相似文献
4.
G. Heinemann 《Theoretical and Applied Climatology》2006,83(1-4):35-50
Summary The dynamical effect of land surface heterogeneity on heat fluxes in the atmospheric boundary layer (ABL) is investigated
using numerical simulations with a non-hydrostatic model over a wide range of grid resolutions. It is commonly assumed that
mesoscale or dynamical fluxes associated with mesoscale and convective circulations simulated by a high-resolution model (subgrid
(SG) model) on the subgrid scale of a climate model (large-scale (LS) model) represent additional processes in the ABL, which
are not considered by the turbulence scheme of the LS-model, and which can be parameterized using the SG-model. The present
study investigates the usefulness of this methodology for small-scale and large-scale idealized heterogeneities using a SG-model
resolving mesoscale or even microscale circulations to compute the mesoscale fluxes on the scale of the LS-model. It is shown
that the dynamical transports as derived from the SG-model should not be used to correct the parameterized turbulent fluxes
of the LS-model. The reason is that the subgrid circulations simulated by the SG-model interact with the fields of wind and
scalars in the ABL, which results in reduced turbulent fluxes in the ABL. Thus the methodology of previous studies to use
mesoscale/dynamical fluxes for the correction of flux profiles simulated by climate models seems to be questionable. 相似文献
5.
Y. Shao M. Sogalla M. Kerschgens W. Brücher 《Meteorology and Atmospheric Physics》2001,78(3-4):157-181
Summary
In this paper, we examine the effects of land-surface heterogeneity on the calculation of surface-energy and momentum fluxes
in a meso-scale atmospheric model. A series of numerical experiments has been carried out with a combination of different
resolutions for the atmosphere and the land surface, which allows an examination of the aggregation and dynamic effects associated
with land-surface heterogeneity. The numerical results show that for a given atmospheric model resolution, increased land-surface
resolution leads to better estimates of surface-energy and momentum fluxes, and for a given land-surface resolution, increased
atmospheric model resolution also improves the estimates of these fluxes. This latter result contradicts the prevailing view
that subgrid variation in atmospheric data plays only a minor role in estimating the fluxes. It is also shown that subgrid
land-surface heterogeneity leads to increased turbulent fluctuations. The responsible mechanisms of this effect are both the
subgrid variation of surface-energy fluxes and their impact upon the development of convective cells. It is suggested that
subgrid atmospheric motions induced by surface heterogeneity may be an important factor which needs to be considered in subgrid
closure schemes for atmospheric models.
Received August 28, 2000/Revised June 1, 2001 相似文献
6.
海洋温带气旋爆发性发展数值试验 总被引:12,自引:5,他引:7
利用 P S U/ N C A R M M 4 对5 个西北太平洋温带气旋的爆发性发展进行了一系列数值模拟和敏感性试验,并对重要的物理过程进行了分析和诊断。采用相同物理过程及边界条件的控制试验成功地模拟出了主要的爆发性气旋加深率,为海洋爆发性气旋的业务数值预报提供了可能。敏感性试验获得了湿物理过程、能量频散、 S S T 和海面能通量、日本岛地形及初、边值条件等影响气旋加深率的定量认识,分析表明水的微物理过程,特别是网格尺度的水汽凝结、未饱和层的云滴和雨滴蒸发,是气旋爆发性发展中最重要的物理过程;在高空 200~300h Pa 层的云滴蒸发效应可能是形成相应层气旋中心非绝热冷却峰值的主要原因;由内在热力动力学过程所决定的潜热释放比对流参数化任意规定的加热分布更接近实际并能产生更好的模拟结果;没有能量频散效应时可减小模拟加深的 30% ;海面能通量在初始时刻比在爆发性发展时更重要,不计初始时海面能通量将影响模拟加深约 25% ,而不计爆发性发展时的海面能通量,这种影响不及前者的一半;爆发性发展时的海面能通量呈不均匀分布并能诱导反锋面热力环流在局部抑制气旋的加深;大气模式对海气边界层能通量交换的变化和海洋增暖产生了显著的热力学响 相似文献
7.
A dataset collected during a measurement campaign in the middle of the Po Valley, Italy, is used to investigate the boundary-layer structure in stable conditions. Empirical formulations for temperature and wind profiles derived from Monin–Obukhov similarity theory are used as regression curves to fit radiosounding profiles in the lower half of the boundary-layer. The best fitting parameters of the regression are then compared to the surface turbulent fluxes as measured by a co-located sonic anemometer. This comparison shows significant discrepancies and supports earlier results showing that surface fluxes, in the limit of high stability, are not adequate scalings for mean profiles. The most evident differences are found for cases for which the bulk Richardson number turns out to be quite large. One of the practical consequences is that boundary-layer height diagnostic formulations that mainly rely on surface fluxes are in disagreement with those obtained by inspecting the thermodynamic profiles recorded during the radiosounding ascent. Moreover the incorrect scaling of similarity profiles in stable conditions leads to the erroneous diagnosis of 2-m air temperatures used in numerical weather prediction validation. 相似文献
8.
Estimation of areally-averaged surface fluxes 总被引:6,自引:1,他引:6
Martin Claussen 《Boundary-Layer Meteorology》1991,54(4):387-410
The concept of blending height is used to estimate areally averaged surface fluxes of momentum and heat in a stratified, horizontally inhomogeneous surface-layer flow. This concept is based on the assumption that at sufficiently large heights above a heterogeneous surface, subsequent surface modifications will not be recognizable in the flow individually, but overall flux and mean profiles will represent the surface condition of a large area. The height at which the flow becomes approximately independent of horizontal position is called blending height according to Wieringa (1986).Here, it is proposed to classify the ground surface in a surface-layer grid box of a larger-scale model into several land-use categories. Surface momentum and heat fluxes should be estimated for each category at the blending height. The grid-averaged surface fluxes are to be obtained by the average of surface fluxes on each land-use surface weighted by its fractional area. The postulate of computing the surface fluxes at the blending height leads to a new formulation of turbulent transfer coefficients.The proposed parameterization has been tested by employing a small-scale numerical model as a surface-layer grid box of a hypothesized larger-scale model. Several quite different flow configurations have been studied in order to investigate the performance of the new parameterization. Generally, the relative errors of estimated averaged surface fluxes are found to be well within ±10%. 相似文献
9.
10.
Effects of Crop Growth and Development on Land Surface Fluxes 总被引:2,自引:0,他引:2
In this study, the Crop Estimation through Resource and Environment Synthesis model (CERES3.0) was coupled into the Biosphere-Atmosphere Transfer Scheme (BATS), which is called BATS CERES, to represent interactions between the land surface and crop growth processes. The effects of crop growth and development on land surface processes were then studied based on numerical simulations using the land surface models. Six sensitivity experiments by BATS show that the land surface fluxes underwent substantial changes when the leaf area index was changed from 0 to 6 m2 m-2. Numerical experiments for Yucheng and Taoyuan stations reveal that the coupled model could capture not only the responses of crop growth and development to environmental conditions, but also the feedbacks to land surface processes. For quantitative evaluation of the effects of crop growth and development on surface fluxes in China, two numerical experiments were conducted over continental China: one by BATS CERES and one by the original BATS. Comparison of the two runs shows decreases of leaf area index and fractional vegetation cover when incorporating dynamic crops in land surface simulation, which lead to less canopy interception, vegetation transpiration, total evapotranspiration, top soil moisture, and more soil evaporation, surface runoff, and root zone soil moisture. These changes are accompanied by decreasing latent heat flux and increasing sensible heat flux in the cropland region. In addition, the comparison between the simulations and observations proved that incorporating the crop growth and development process into the land surface model could reduce the systematic biases of the simulated leaf area index and top soil moisture, hence improve the simulation of land surface fluxes. 相似文献
11.
Leads and polynyas have a great impact on the energy budget of the polar ocean and atmosphere. Since atmospheric general
circulation models are not able to resolve the spatial scales of these inhomogeneities, it is necessary to include the effect
of fractional sub-grid scale sea-ice inhomogeneities on climate by a suitable parametrization. In order to do this we have
divided each model grid-cell into an ice-covered and an ice-free part. Nevertheless, a numerical model requires effective
transports representative for the whole grid-box. A simple procedure would be to use grid averages of the surface parameters
for the calculation of the surface fluxes. However, as the surface fluxes are non-linearly dependent on the surface properties,
the fluxes over ice and open water should be calculated separately according to the individual surface-layer structure of
each surface type. Then these local fluxes should be averaged to obtain representative fluxes. Sensitivity experiments with
the Hamburg atmospheric general circulation model ECHAM3 clearly show that a subgrid scale distribution of sea ice is a dominant
factor controlling the exchange processes between ocean and atmosphere in the Arctic. The heat and water vapour transports
are strongly enhanced leading to a significant warming and moistening of the polar troposphere. This affects the atmospheric
circulation in high- and mid-latitudes; e.g. the stationary lows are modified and the transient cyclonic activity over the
subpolar oceans is reduced. A pronounced impact of sub-grid scale sea-ice distribution on the model climate can only be obtained
when the non-linear behaviour of the surface exchange processes is considered by a proper, physically based, averaging of
the surface fluxes. A simple linear averaging of surface parameters is not sufficient.
Received: 13 September 1994 / Accepted: 25 July 1995 相似文献
12.
Dense observations and numerical experiments were carried out to estimate the modification of mesoscale circulation, particularly cold drainage wind. It was confirmed that nocturnal drainage flow can develop on clear calm summer day and change due to orographical forcing and the heterogeneity of heat flux induced by the discontinuity of land-use. The temperature of nocturnal drainage flow at Sungji Valley, Busan Korea, tended to increase as it passed over the urban surface due to anthropogenic heat. The increase in temperature reached 2.9 K at night. The roughness associated with the exchange of momentum flux alone and the pass of nocturnal drainage flow is important for modifying the characteristics of flow Numerical simulations carried out under various surface conditions showed good agreement with the observations. Urban heat fluxes from the surface during the day are fundamental causes of the changes in the urban mesoscale circulation. In addition, the impact of a discontinuity of surface heat flux on mesoscale flow modification tends to be greater at night than during the day because the direction of urban surface heat fluxes at night is different from that in rural areas. In addition, the criterion to estimate the increase in temperature nocturnal drainage flow was also proposed, and provided results that generally agreed with the numerical results. 相似文献
13.
The problem of boundary conditions for the variances and covariances of scalar quantities (e.g., temperature and humidity) at the underlying surface is considered. If the surface is treated as horizontally homogeneous, Monin–Obukhov similarity suggests the Neumann boundary conditions that set the surface fluxes of scalar variances and covariances to zero. Over heterogeneous surfaces, these boundary conditions are not a viable choice since the spatial variability of various surface and soil characteristics, such as the ground fluxes of heat and moisture and the surface radiation balance, is not accounted for. Boundary conditions are developed that are consistent with the tile approach used to compute scalar (and momentum) fluxes over heterogeneous surfaces. To this end, the third-order transport terms (fluxes of variances) are examined analytically using a triple decomposition of fluctuating velocity and scalars into the grid-box mean, the fluctuation of tile-mean quantity about the grid-box mean, and the sub-tile fluctuation. The effect of the proposed boundary conditions on mixing in an archetypical stably-stratified boundary layer is illustrated with a single-column numerical experiment. The proposed boundary conditions should be applied in atmospheric models that utilize turbulence parametrization schemes with transport equations for scalar variances and covariances including the third-order turbulent transport (diffusion) terms. 相似文献
14.
Twenty-two months (July 1983-April 1985) of surface heat fluxes predicted at day 1 from a numerical weather prediction system have been processed. Monthly means and monthly standard deviations of available surface short-wave, long-wave, latent and sensible heat fluxes as well as annual means have been computed. The global mean of the annual net sea-surface heat flux is about 40 Wm–2 and is therefore far from equilibrium. When used to force an oceanic model, these fluxes would tend to warm the ocean and would produce an unrealistic transport of heat by the oceanic general circulation. They therefore need to be corrected. This correction appears feasible because the main difference between these fluxes and long-term climatologies appears largely independent of the month and the latitude. This suggests that the errors have a systematic origin. The corrected fluxes allow both the reproduction of a realistic seasonal migration of the zero net heat-flux line and the reproduction of the annual meridional heat transport in the different oceans, within the range of previous estimates. 相似文献
15.
江南地面热通量对江淮气旋暴雨影响的模拟研究 总被引:6,自引:0,他引:6
通过对一次江淮气旋暴雨个例的数值模拟,研究地面热通量与大尺度流型结合作用对气旋降水系统的影响。过程前期存在南北两大片地面热通量正值区,北片位于气旋所在处及其前方,南片位于上游低空急流处。模拟比较两片地面热通量的作用发现,前期南片地面热通量,特别是强潜热通量,通过与其上空低空急流的共同作用,对后期下游江淮气旋降水系统的加强起着更为重要的作用。对其机制的初步探讨表明:由地面通量进入低层大气的水汽,通过西南气流向长江中下游输送,改变下游大气的温湿结构,并通过积云对流和层状云雨潜热释放等非绝热过程,促进后期气旋降水系统的发展 相似文献
16.
To understand the influence of the Bering Strait on the World Ocean’s circulation, a model sensitivity analysis is conducted.
The numerical experiments are carried out with a global, coupled ice–ocean model. The water transport through the Bering Strait
is parametrized according to the geostrophic control theory. The model is driven by surface fluxes derived from bulk formulae
assuming a prescribed atmospheric seasonal cycle. In addition, a weak restoring to observed surface salinities is applied
to compensate for the global imbalance of the imposed surface freshwater fluxes. The freshwater flux from the North Pacific
to the North Atlantic associated with the Bering Strait throughflow seems to be an important element in the freshwater budget
of the Greenland and Norwegian seas and of the Atlantic. This flux induces a freshening of the North Atlantic surface waters,
which reduces the convective activity and leads to a noticeable (6%) weakening of the thermohaline conveyor belt. It is argued
that the contrasting results obtained by Reason and Power are due to the type of surface boundary conditions they used.
Received: 27 October 1995/Accepted: 20 November 1996 相似文献
17.
Surface-based and aircraft measured fluxes over the heterogeneous surface in HAPEX-MOBILHY are analyzed for the ten flight days when cloud cover above the boundary layer was minimal. The fair-weather climatology of the spatial variation of surface fluxes is estimated to provide an assessment of the generality of previous case studies appearing in the literature. For the 10-day averages, greater heating over the forest generates a forest breeze which leads to rising motion and a modest increase of boundary-layer cloud cover at the forest edge. The exchange coefficients and effective roughness lengths are computed for local averages (15 km scale) and for regional averages (100 km scale) intended to represent a range of grid sizes in numerical models of the atmosphere. The effective roughness length for momentum over the mixed agricultural region for both scales is on the order of 1 m, apparently due to bluff roughness effects associated with scattered trees, edges of small woods and other obstacles. This roughness length value is an order of magnitude larger than values used in numerical models for the same region, which are based on the dominant vegetation type. The spatially varying effective roughness length for heat is computed for use in those models which use surface radiation temperature to estimate surface heat flux. The effective roughness lengths for heat are found to be smaller than those typically used in numerical models of the atmosphere. 相似文献
18.
环太湖地区土地利用变化的局地气候效应 总被引:3,自引:2,他引:1
利用WRF模式和1985年、2005年环太湖区域的土地利用资料,模拟了环太湖区域土地利用变化的局地气候效应,并从陆面过程的角度进行了分析。模拟结果显示:城市扩张区域净短波辐射通量增多,地面温度升高,感热通量增大,潜热通量减小。近地面水平风场在城市化地区风速减小,在城市化带方向上形成狭长的动能衰减区域。湖陆风和城市热岛环流增强,城市化地区向上垂直速度增大,积云性降水增多。老城区和郊区下沉运动增强,对流受到抑制,积云性降水减少。层云降水的改变,集中在层云降水的大值区,且多呈带状分布。总降水在城市化区域增强,在老城区和郊区减少,积云性降水占总降水的比值增大。在土地利用没有变化的区域,降水的改变与地表能量通量的改变在空间分布上大致吻合。 相似文献
19.
Source areas for scalars and scalar fluxes 总被引:19,自引:2,他引:19
H. P. Schmid 《Boundary-Layer Meteorology》1994,67(3):293-318
The spatial resolution of meteorological observations of scalars (such as concentrations or temperature) and scalar fluxes (e.g., water-vapour flux, sensible heat flux) above inhomogeneous surfaces is in general not known. It is determined by the surface area of influence orsource area of the sensor, which for sensors of quantities that are subject to turbulent diffusion, depends on the flow and turbulence conditions.Functions describing the relationship between the spatial distribution of surface sources (or sinks) and a measured signal at height in the surface layer have been termed thefootprint function or thesource weight function. In this paper, the source area of levelP is defined as the integral of the source weight function over the smallest possible domain comprising the fractionP of the total surface influence reflected in the measured signal. Source area models for scalar concentration and for passive scalar fluxes are presented. The results of the models are presented as characteristic dimensions of theP=50% source areas (i.e., the area responsible for 50% of the surface influence): the maximum source location (i.e., the upwind distance of the surface element with the maximum-weight influence), the near and the far end of the source area, and its maximal lateral extension. These numerical model results are related directly to non-dimensional surface-layer scaling variables by a non-linear least squares method in a parameterized model which provides a user-friendly estimate of the surface area responsible for measured concentrations or fluxes. The source area models presented here allow conclusions to be made about the spatial representativeness and the localness (these terms are defined in the text) of flux and concentration measurements. 相似文献
20.
Evaporation over a Heterogeneous Land Surface: EVA_GRIPS and the LITFASS-2003 Experiment—An Overview
The Evaporation at Grid/Pixel Scale (EVA_GRIPS) project was realised in order to determine the area-averaged evaporation over a heterogeneous land surface at the scale of a grid box of a regional numerical weather prediction or climate model, and at the scale of a pixel of a satellite image. EVA_GRIPS combined surface-based and airborne measurements, satellite data analysis, and numerical modelling activities. A mesoscale field experiment, LITFASS-2003, was carried out in the heterogeneous landscape around the Meteorological Observatory Lindenberg (MOL) of the German Meteorological Service in May and June, 2003. The experiment was embedded in the comprehensive, operational measurement program of the MOL. Experimental determination of surface fluxes on a variety of spatial scales was achieved by employing micrometeorological flux stations, scintillometers, a combination of ground-based remote sensing instruments, and the Helipod, a turbulence probe carried by a helicopter. Surface energy fluxes were also derived from satellite data. Modelling work included the use of different Soil–Vegetation–Atmosphere Transfer schemes, a large-eddy simulation model and three mesoscale atmospheric models. The paper gives an overview on the background of EVA_GRIPS, and on the measurements and meteorological conditions during LITFASS-2003. A few general results are discussed. 相似文献