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城市下垫面空气动力学参数的估算 总被引:29,自引:2,他引:29
为了定量描述北京城市下垫面的空气动力学特征,为模式提供准确的下垫面参数.利用气象塔大气湍流观测资料,结合Martano(2000)由单层超声风速、温度资料估算非均匀下垫面空气动力学参数的方法,计算了中国科学院大气物理研究所气象塔附近的下垫面空气动力粗糙度z0和零平面位移d,即z0为1.75 m和d为40.12 m.该结果与前人研究成果的比较结果表明最近的8年内,该处的零平面位移和空气动力粗糙度明显增大,这与该塔周围城市建设状况吻合. 相似文献
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气象高塔数据资料弥足珍贵, 对其进行质量控制将为后续科学研究和业务工作的开展提供便利; 此外, 利用塔基观测资料计算空气动力学参数有助于校正模式空气动力学参数理论值。对2017-2018年深圳356 m气象梯度观测塔共13层的每10 s风速、风向、相对湿度、温度探测资料进行数据质量控制, 基于莫宁-奥布霍夫相似理论和数据质量控制后的气象梯度观测塔近地层(10 m、20 m、40 m、50 m和80 m) 1分钟平均的风温资料, 利用最小二乘法拟合迭代计算了近中性条件下深圳气象梯度观测塔下垫面空气动力学粗糙度(z0)和零平面位移(d)。结果表明:深圳气象梯度观测塔的气象探测资料数据质量很高, 连续两年平均数据缺失率为1.28%, 数据错误率为0.01%。近中性边界层条件下, 深圳气象梯度观测塔下垫面空气动力学粗糙度均值为0.35 m, 零平面位移均值为5.33 m, 结果合理可信。研究表明空气动力学参数受下垫面非均匀性、植株柔软性、气流来向、风速等的共同影响。 相似文献
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不同下垫面空气动力学参数的研究 总被引:7,自引:0,他引:7
文中利用中国科学院沙漠研究所与日本国家农业环境技术研究所合作于1990—1994年在中国内蒙古自治区奈曼市半干旱地区沙丘和植被区下垫面观测的微气象数据,根据Monin-Obukhov相似性理论,计算了重度干扰草原、中度干扰草原、轻度干扰草原、无干扰草原、沙丘、沙丘内地、草地、稻田、小麦田、大豆田和玉米田11种下垫面的空气动力学参数粗糙度长度z0,零平面位移d,摩擦速度u*,并分析了它们与水平风速u和Richardson数的关系,比较了不同人为干扰草原生态系统条件下的空气动力学特征。结果表明:地表生物量和覆盖率随着人为干扰强度的增加而减少。不同人为干扰下垫面的粗糙长度与生物量和植被高度以及地表起伏程度有着密切关系;Richardson数也是其影响因子。风速、粗糙度都与摩擦速度成正相关,但对于不同下垫面有所不同,从中可以看到草地对沙漠化有一定的防治作用。同一种下垫面不同时期的空气动力学参数也存在差异。这些结果对建立陆面过程和区域气候模式具有重要的意义。 相似文献
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为了定量描述黄河上游玛曲地区草地下垫面的空气动力学特征,为模式提供准确的下垫面参数,利用"黄河源区气候与环境综合观测研究站"2006年9月的湍流观测资料,结合Martano由单层超声观测资料确定下垫面空气动力学参数的方法,计算了黄河上游玛曲地区草原下垫面空气动力学粗糙度z0和零平面位移d,即z0为0.035 m,d为0.143 m。同时,将z0和d应用于陆面过程模式CoLM中,检验其对模式模拟性能的影响,结果表明,改进陆面参数后的模式对感热通量和潜热通量的模拟均有明显改善。 相似文献
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空气动力学粗糙度和零平面位移是影响陆面过程的重要参数。以往对空气动力学粗糙度和零平面位移的计算往往针对均一程度较高的下垫面。以珠海南亚热带常绿阔叶林地区为例,探索了复杂地形下垫面空气动力学粗糙度和零平面位移的计算。用拟合法和粗糙元法计算了该地区下垫面的空气动力学粗糙度和零平面位移,并分析了两种方法的误差来源。计算结果表明,拟合法在这种复杂地形下的计算准确度并不理想,由于这种方法的代表范围较小,易受到周边地形影响而使测量结果不符合对数廓线的形式,从而得不到准确的结果。与拟合法相比,粗糙元法可以给出所计算下垫面的具体范围。粗糙元法计算结果的代表范围比拟合法大得多,因此,粗糙元法比拟合法更加能够反映的是该区域下垫面空气动力学粗糙度和零平面位移的总体情况。另外,粗糙元法可以计算那些因为风速资料不足无法用风速廓线直接加以计算的区域的空气动力学粗糙度和零平面位移。根据拟合法的计算结果,冬季315~45°范围内,z_0=2.96 m,d=22.48 m;45~135°范围内,z_0=1.26 m,d=8.81 m。春夏季315~45°范围内,z_0=3.90 m,d=27.00 m;45~135°范围内,z_0=1.51 m,d=14.83 m。根据粗糙元法的计算结果,东南西北四个方向1 km×1 km范围内z_0分别为0.94 m、1.28 m、1.30 m、2.08 m;d分别为13.87 m、18.79 m、19.12 m、30.61 m。 相似文献
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典型特大城市下垫面空气动力学特征参数的计算与分析研究 总被引:1,自引:0,他引:1
基于2012年12月—2013年11月上海徐家汇气象铁塔风和湍流观测资料及铁塔周边500m半径范围(平均建筑高度为39.5 m)下垫面信息,分别利用温度方差方法、风速标准差方法、涡度相关法和形态学方法计算典型特大城市下垫面零平面位移和动力学粗糙度。结果表明,温度脉动方差法计算的零平面位移与建筑物高度分布存在差异,但在58~208°方向与建筑顶面积系数呈现正相关(相关系数0.73),计算公式的经验参数、稳定度阈值和风速对计算结果影响较为显著;涡度相关方法和风速标准差方法计算的动力学粗糙度随风向分布趋势相似(相关系数0.94),并与零平面位移呈负相关关系。形态学方法与动力学方法之间数值和随风向的变化趋势均存在差异,风温观测仪器源区和形态学方法分析区域具有显著影响。 相似文献
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通过分析2010—2018年天津气象塔风、温度资料,对近年来天津城市边界层粗糙度、大气稳定度和逆温特征进行研究。结果表明:随着城市发展,气象塔周边各方向粗糙度和零平面位移明显增高,气象塔周边建筑物对80 m高度以下风场的影响较为明显。受湍流强度日变化影响,各季节中气象塔高层和低层风速日变化特征差异明显。通过温差-风速法计算大气稳定度发现稳定类层结多出现在秋冬季的夜间,稳定层结条件下逆温情况多发,其逆温强度、逆温层厚度和贴地逆温比例也明显高于不稳定和中性层结。天津城市热岛强度的时间分布表现出夜间强于白天,秋冬季强于春夏季的特征。城市热岛强度与大气稳定度时间分布具有一定相关性。 相似文献
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AN ANALYTICAL ONE-DIMENSIONAL MODEL OF MOMENTUM TRANSFER BY VEGETATION OF ARBITRARY STRUCTURE 总被引:5,自引:2,他引:5
W. J. MASSMAN 《Boundary-Layer Meteorology》1997,83(3):407-421
An analyticalone-dimensional model of momentum transferby vegetation with variable foliage distribution,sheltering and drag coefficientis developed. The model relies on a simpleparameterization of the ratio of theabove-canopy friction velocity, u*, to thewind speed at the top of the canopy,u(h), to predict vegetation roughness length(z0) and displacement height(d) as functions of canopy height (h) and dragarea index. Model predictionsof d/h and z/h compare very favorably withobserved values.A model sensitivity analysis suggests that shelteringeffects for momentum transfertend to make canopies with non-uniform foliagedistribution resemble canopies withmore uniform foliage distribution and that anyinfluence wind speed has on d/hand z0/h is more likely to be related to theinfluence that wind speed may haveon u*/u(h) rather than the influence windspeed may have on the foliage dragcoefficient. Model results indicate that z0/hand d/h are sensitive to uncertaintiesin the numerical values of the model parameters,foliage density and distribution,sheltering effects and variations in drag coefficientwithin the canopy. In additionz0/h is also shown to be sensitive to thepresence or absence of the roughnesssublayer. Given the simplicity of the model it issuggested that it may be of usefor land surface parameterizations in large scalemodels. 相似文献
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Characteristics of Momentum and Heat Transfer over Semiarid Grasslands with Different Grazing Intensities in Inner Mongolia, China 
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下载免费PDF全文 The drag coefficient (C d) and heat transfer coefficient (C h) with the bulk transfer scheme are usually used to calculate the momentum and heat fluxes in meteorological models.The aerodynamic roughness length (z 0m) and thermal roughness length (z 0h) are two crucial parameters for bulk transfer equations.To improve the meteorological models,the seasonal and interannual variations of z 0m,z 0h,coefficient kB 1,C d,and C h were investigated based on eddy covariance data over different grazed semiarid grasslands of Inner Mongolia during the growing seasons (May to September) from 2005 to 2008.For an ungrazed Leymus chinensis grassland (ungrazed since 1979),z 0m and z 0h had significant seasonal and interannual variations.z 0m was affected by the amount and distribution of rainfall.kB 1 exhibited a relatively negative variation compared with z 0h,which indicates that the seasonal variation of z 0h cannot be described by kB 1.To parameterize z 0m and z 0h,the linear regressions between ln(z 0m),ln(z 0h),and the leaf area index (LAI) were performed with R 2 =0.71 and 0.83.The monthly average kB 1 was found to decrease linearly with LAI.The four-year averaged values of C d and C h were 4.5×10 3 and 3.9×10 3,respectively.The monthly average C d only varied by 8% while the variation of C h was 18%,which reflects the different impacts of dead vegetation on momentum and heat transfer at this natural grassland.Moreover,with the removal of vegetation cover,grazing intensities reduced z 0m,z 0h,C d,and C h. 相似文献
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T. Maitani 《Boundary-Layer Meteorology》1979,17(2):213-222
Turbulence statistics, including higher order moments, in the surface layer over plant canopies were compared with those observed over several different surfaces, using a nondimensional height (z – d)/z
0: The values of (z – d)/z
0extend over a very wide range from 10 over plant canopies to 107 over the ocean. Several properties such as intensities of turbulence and skewness factors show a remarkable height-dependency in the air layer below (z – d)/z
0 = 102, which is supposed to be much influenced by the underlying surface. In that layer, some peculiar phenomena, such as a downward energy transport and positive flux of shear stress, are frequently observed. 相似文献
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The Characteristics and Parameterization
of Aerodynamic Roughness Length over
Heterogeneous Surfaces 总被引:1,自引:0,他引:1
Aerodynamic roughness length (z0m is a key factor in surface flux estimations with remote sensing
algorithms and/or land surface models. This paper calculates z0m over several land surfaces, with 3 years of
experimental data from Xiaotangshan. The results show that z0m is direction-dependent, mainly due to the
heterogeneity of the size and spatial distribution of the roughness elements inside the source area along different wind
directions. Furthermore, a heuristic parameterization of the aerodynamic roughness length for heterogeneous surfaces is
proposed. Individual z0m over each surface component (patch) is calculated firstly with the characteristic
parameters of the roughness elements (vegetation height, leaf area index, etc.), then z0m over the whole
experimental field is aggregated, using the footprint weighting method. 相似文献
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Li Xingsheng 《Acta Meteorologica Sinica》1991,5(2):141-119
In the stably stratified boundary layer,the vertical flux profiles for momentum and heat can be obtained froman atmospheric boundary layer model which includes parameterization of the long-wave radiation.In addi-tion,the Monin-Obukhov similarity theory can be extended to the whole boundary layer by using the local tur-bulent scales L(z),U.(z)and 0.(z)in place of surface layer scales.The similarity predictions are ingood agreement with observational data. 相似文献
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Lauren M. Candlish Richard L. Raddatz Geoffrey G. Gunn Matthew G. Asplin David G. Barber 《大气与海洋》2013,51(3):249-264
Abstract This study presents a semi‐analytic non‐iterative solution for the Monin‐Obukhov similarity equations under unstable surface conditions. The solution is represented in terms of the non‐dimensional Monin‐Obukhov stability parameter z/L. This parameter is given as a function of the bulk Richardson number and other surface parameters including the heat and momentum roughness lengths which are generally assumed to be different in this formulation. The proposed formulations give results that are both quantitatively and qualitatively consistent with the fully iterated numerical solution for a wide range of surface parameters. 相似文献
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A regional atmospheric climate model is used toexamine the effect of changes in the roughnesslengths of momentum (z0m) and heat (z0h)on the structure of the lower atmosphere and on thesurface energy fluxes over Antarctica. Fourexperiments were carried out in which z0mand/or z0h were altered with respect to acontrol experiment. The changes consisted of (1) alowering of z0m from a field aggregated froma vegetation map with an orographic correction basedon the European Centre for Medium-Range WeatherForecasts z0m field, to a constant value of10-3 m; and (2) a lowering of z0h from a valueequal to z0m to a constant value of 10-3 mor a value dependent on the wind speed via a surfacerenewal model. A reduction of z0m results in theexpected increase in near-surface wind speed. It alsoresults in an increase in the depth of the layer in whichsouth-easterly near-surface winds prevail, and in adecrease in the strength of the large-scale flow overthe continent, in particular in summer. In theescarpment region a decrease of z0m is foundto result in too high wind speeds. Surface temperatureson average decrease while atmospheric temperaturesincrease, resulting in an increase of near-surfacestatic stability. Changes in roughness lengths donot significantly change the temperature profiles.The surface fluxes, on average found reduced, aremodelled best by using the z0h based on thesurface renewal method. 相似文献
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A statistical model, based on a method of Vulf'son, is used to examine some of the plume-like temperature structures formed in the unstable boundary layer. The model assumes that the plume diameter changes slowly with height so that a cylindrical approximation may be made. Measurements of the vertical velocity and temperature were used to determine the temperature dependent portion of the vertical velocity field. Temperature data were collected from sensors on a tower and from aircraft; velocity data were collected only from the tower.Using this model for analysis of the data indicates that: (1) the average isotherm diameter and the population of isotherms are a function ofz/L; (2) the distribution of core temperatures is approximately a uniform distribution.Independent of the model, a convective velocity was determined and found to have approximately the same profile as the temperature; from this the average velocity of the plumes was found to be a linear function ofz/L, fromz/L - 0.1 toz/L - 1.0. As a consequence of this functional dependence, the entrainment into the plumes is approximately constant over this range. The cumulative temperature distribution function was found to be an asymmetric function ofz/L. A simple relation which is independent ofu
* is given to determine the heat flux.Contribution No. 269 Dept. of Atmospheric Sciences, University of Washington. 相似文献