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1.
主要从理论、试验角度对大气边界层的研究进行了简要的回顾,尤其对近年来倍受关注的非均匀地表条件下的边界层研究进行了较详细的介绍,并对大气边界层的研究进行了展望。20世纪50年代,Monin和Obukhov提出的Monin-Obukhov相似理论,为现代大气边界层物理学奠定了基础。之后进行的多次大型综合性外场试验,不仅揭示和发现了大气边界层中的许多现象和规律,也验证和发展了Monin-Obukhov相似理论。80年代以后,非均匀地表条件下的大气边界层研究越来越受到关注,一些新的现象被揭示,新的问题被提出,同时也提出了一些新的概念和研究方法。未来10 a,除大气湍流机理等需长期坚持研究外,还应进一步开展非均匀复杂下垫面边界层研究、城市边界层研究和局地边界层气象预报研究。 相似文献
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该文在大气边界层多尺度湍流理论和湍流穿越理论的基础上,建立了大气边界层感热通量的非局地多尺度湍流计算方法,并选用1998年5~8月份第二次青藏高原大气科学试验(TIPEX)的大气边界层综合观测基地昌都站观测资料,分别用感热通量的非局地多尺度湍流计算方法和经典相似理论计算感热通量。对计算结果的对比分析表明,用感热通量的非局地多尺度湍流计算方法能计算出感热通量的逆梯度输送,也能计算出青藏高原近中性层结条件下明显的感热通量。此外,多尺度湍流理论还有待进一步发展完善,提高感热通量的计算精度。 相似文献
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城市冠层上下大气湍流特征分析 总被引:2,自引:0,他引:2
利用兰州市榆中县城市冠层架设的3台涡动相关仪(EC)观测大气湍流资料,分析了城市冠层上下不同下垫面湍流通量和不同风向范围内湍流动能变化特征,之后对城市冠层上下3台EC观测湍流动能最小、最大分布方向上分别对应的最小最大湍流动能的风速谱进行了研究,进一步检验了局地相似理论在城市冠层上下的适用性。结果表明:(1)城市冠层之上水泥、砖石等构成下垫面和城市冠层之内草坪下垫面观测感热通量、摩擦速度较为接近,观测潜热通量、CO2通量在白天差异明显。(2)城市冠层之上的湍流动能总体上大于冠层之内,冠层之上气流来向的上风向较为开阔时湍流动能较大,而冠层之内气流来向的上风向为街道口时湍流动能较大。(3)城市冠层之上的湍涡尺度大于冠层之内,城市冠层小尺度湍涡风速谱在惯性副区基本符合-2/3次方关系,且准各向同性,大尺度湍涡风速谱在惯性副区不符合-2/3次方关系,且各向异性。(4)不稳定层结下,城市冠层上下无量纲速度方差与稳定度基本满足1/3次方局地相似关系,稳定层结下不满足;城市冠层上下无量纲温度、湿度、CO2浓度方差在所有层结下均不满足-1/3次方局地相似关系。(5)近中性层结下,城市冠层上下u、v、w方向无量纲速度方差分别为3.52,3.03,1.49和2.62,2.22,1.50。 相似文献
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利用中国国家气候中心2009-2010年在内蒙古锡林浩特开展的100 m铁塔大气湍流观测数据,分析了不同稳定度条件下的垂直风廓线变化特征,并在局地相似理论基础上建立了垂直风廓线表达式。结果表明:(1)内蒙古草原近地层大气中,不稳定层结和稳定层结条件发生的概率远高于中性和弱不稳定、弱稳定层结的发生概率。(2)稳定层结时,大气特性在垂直方向上变化较明显,需要按照不同的高度层分别研究其风速的变化规律。根据内蒙古锡林浩特草原大气湍流观测资料得到,稳定层结时的无因次风速梯度随稳定度ξ的变化关系可以表达为1+β_mξ,其中β_m的取值与距地面高度有关:30 m高度及以下,β_m取4.3-5.4;高度在(30 m,50 m],β_m取2.9-3.4;50 m及以上高度,β_m取2.0-2.9。 相似文献
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利用长白山森林生态系统定位研究站观测资料,及2003年8月和9月涡旋相关资料,分析和比较了该地区近地层包括风速、风向、大气稳定度在内的平均场特征,以及湍流强度、无量纲化风脉动方差相似性和地表通量变化特征。结果表明:(1)8月和9月稳定度都基本集中在0附近;(2)风速2 m·s-1的环境中,湍流发展最为旺盛,随着风速的增大湍流强度先迅速减小,当风速增大到3 m·s-1后,湍流强度偏离0值变大了一些,再继续增大到一定风速大小以后,湍流强度基本不随风速变化;(3)无量纲化三维风脉动方差符合Monin-Obukhov相似理论的"1/3"定律,其最佳通用相似函数在稳定和不稳定条件下都可以拟合得到;(4)地表通量均表现出明显的日变化特征,8月以潜热为主,感热较小;9月仍以潜热为主,但是相比8月明显偏小,感热变化不大。 相似文献
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利用非均匀地表加热的大涡模拟试验,研究了不稳定条件下地表热力非均匀性对近地层相似理论适用性的影响。结果发现,边界层的平均廓线基本不受地表热力非均匀性的影响。进一步分析发现,较大尺度的地表非均匀加热可以激发出有组织的大尺度次级环流,冷暖斑块的通量直到边界层上部才混合均匀;而当地表非均匀尺度较小时,次级环流难以形成有组织的结构,冷暖斑块的通量很快就可以混合均匀。然而,不管是哪种尺度的非均匀地表,非均匀斑块间的平流都对各斑块近地层结构产生重要影响,进而斑块近地层通量—梯度关系与相似理论产生偏差,其中风速梯度关系的偏差更为明显。最后,对目前大气模式中常用的基于相似理论的次网格非均匀地表通量参数化方法——Mosaic方法提出了改进思路。 相似文献
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疏勒河上游高寒草甸下垫面湍流特征分析 总被引:3,自引:0,他引:3
利用2011年疏勒河上游高寒草甸生长季(5-9月)的近地层湍流观测资料,分析了该区域近地层三维风速标准差统计特征及近地层能量交换特征.结果表明,研究区域无量纲化三维风速标准差与稳定度的关系满足Monin-Obukhov相似理论;在近中性条件下,高寒草甸下垫面无量纲化三维风速标准差近似表现为一常数,即σu/u*=3.50,σv/u*=3.30,σw/u*=0.96;通过最小二乘法(OLS)的回归直线,5-9月强制通过原点的OLS回归斜率分别为0.76,0.72,0.75,0.73和0.73;能量平衡比率(EBR)月平均值分别为0.90,0.85,0.86,0.88和0.93;能量闭合度白天大于夜间,EBR从早晨到下午呈增加趋势,并在日出和日落时段变化较为剧烈.在生长季节研究区净辐射主要消耗于潜热即研究区的蒸散,其次是陆地与大气间的感热交换,最后是地表热通量. 相似文献
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稳定大气边界层的湍流结构和相似律 总被引:1,自引:0,他引:1
本文从包括辐射影响在内的大气边界层模式出发,求解了稳定层结条件下湍流热通量和湍流应力的垂直廓线。另外,引入湍流的局地尺度L(z)、u_*(z)和θ_*(z),各湍流量的局地尺度可以表示成z/L(z)的函数,由此可将相似理论推广到全边界层应用,相似律的预告和观测资料很一致。 相似文献
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局地相似性关系在城市边界层中的适用性验证 总被引:1,自引:0,他引:1
利用中国科学院大气物理研究所325 m铁塔在2003年8月期间47和120 m高度上的湍流观测资料,对局地相似性关系在城市边界层的适用性进行了检验。结果表明:47 m高度仍属于城市冠层之上的近地面常通量层,莫宁-奥布霍夫相似性关系基本适用。但120 m高度则基本属于近地面层与自由对流层之间的过渡高度,在该处,相似性关系部分适用。同时,给出了不同的层结稳定度条件下47和120 m高度上的无量纲速度和温度标准差与稳定度之间的局地相关表达式。 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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Stable internal boundary layers form when warm air isadvected over a cooler surface, a common occurrence incoastal areas. The internal boundary layer deepenswith distance along-wind, eventually reachingequilibrium with the surface and becoming a fullydeveloped marine boundary layer. We presentobservations of the late stages of internalboundary-layer evolution made bythe U.K. Meteorological Office'sC-130 Hercules research aircraft over the Persian Gulfin April 1996. Northwesterly winds brought warm dryair from the surrounding desert landmass across thecooler waters of the Gulf. Loss of heat to the surfaceresulted in the formation of a shallow, stableinternal boundary layer downwind of the coast. The aircraftmeasurements were made several hundred kilometresdownwind, by which point the original deep convectiveboundary layer had been eroded away and the internalboundary layer was well developed, effectively a newmarine atmospheric boundary layer. Throughout most ofits depth the boundary layer was statically stable anda downward heat flux of approximately 15 W m-2was observed; however, an exceptionally strong latentheat flux, in excess of 250 W m-2 near thesurface, was sufficient to overcome the downwards heatflux and maintain weak buoyant convection in the lower30–50% of the boundary layer.Scaling of boundary-layer turbulence statistics usinglocal similarity theory produces results in agreementwith previous studies. Because of the strong humiditycontribution to the buoyancy flux, however, care isrequired with the definition of the similarity scales.It is usual for either the sensible heat or buoyancyflux to be used in the definitions of both thetemperature and length scales; the latter being usedover water where humidity plays a significant role indetermining stability. In the present case we findthat while the buoyancy flux is appropriate in thedefinition of the length scale, the temperature scalemust be defined in terms of the sensible heat flux. 相似文献
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On the extension of the wind profile over homogeneous terrain beyond the surface boundary layer 总被引:7,自引:5,他引:2
Sven-Erik Gryning Ekaterina Batchvarova Burghard Brümmer Hans Jørgensen Søren Larsen 《Boundary-Layer Meteorology》2007,124(2):251-268
Analysis of profiles of meteorological measurements from a 160 m high mast at the National Test Site for wind turbines at Høvsøre (Denmark) and at a 250 m high TV tower at Hamburg (Germany) shows that the wind profile based on surface-layer theory and Monin-Obukhov scaling is valid up to a height of 50–80 m. At higher levels deviations from the measurements progressively occur. For applied use an extension to the wind profile in the surface layer is formulated for the entire boundary layer, with emphasis on the lowest 200–300 m and considering only wind speeds above 3 m s?1 at 10 m height. The friction velocity is taken to decrease linearly through the boundary layer. The wind profile length scale is composed of three component length scales. In the surface layer the first length scale is taken to increase linearly with height with a stability correction following Monin-Obukhov similarity. Above the surface layer the second length scale (L MBL ) becomes independent of height but not of stability, and at the top of the boundary layer the third length scale is assumed to be negligible. A simple model for the combined length scale that controls the wind profile and its stability dependence is formulated by inverse summation. Based on these assumptions the wind profile for the entire boundary layer is derived. A parameterization of L MBL is formulated using the geostrophic drag law, which relates friction velocity and geostrophic wind. The empirical parameterization of the resistance law functions A and B in the geostrophic drag law is uncertain, making it impractical. Therefore an expression for the length scale, L MBL , for applied use is suggested, based on measurements from the two sites. 相似文献
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Nocturnal Boundary-Layer Regimes 总被引:17,自引:6,他引:11
L. Mahrt 《Boundary-Layer Meteorology》1998,88(2):255-278
This study analyzes turbulence data collected over a grassland site in the nocturnal boundary layer. Examination of the dependence of the nocturnal boundary layer on stability suggests three regimes: a) the weakly stable case, b) a transition stability regime where many of the variables change rapidly with increasing stability and c) the very stable case. The value of z/L where the downward heat flux is a maximum defines the stability boundary between the weakly stable and transition regimes, where L is the Obukhov length. In the present analysis, the downward heat flux reaches a maximum at z/L approximately equal to 0.05 for 10 m, although comparison with other data indicates that this is not a universal value. For weaker stability, the heat flux decreases with decreasing z/L due to weaker temperature fluctuations. In the transition stability regime, the heat flux decreases rapidly with increasing stability due to restriction of vertical velocity fluctuations by the increasing stratification.For weakly stable conditions, the variances scale according to Monin-Obukhov similarity theory. For very stable conditions, the variances are contaminated by non-turbulent horizontal motions and do not follow the scaling laws. An alternative length scale based on variances is developed which explains more of the variance of the transfer coefficients compared to the Obukhov length. 相似文献
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Tateki Mizuno 《Boundary-Layer Meteorology》1982,23(1):69-83
The statistics of turbulence, such as the standard deviation of fluctuating velocities, in an unstable atmospheric boundary layer are assumed to be characterized by the combination of three specific lengths, Monin-Obukhov length L, observation height z and the height of mixing layer h. Unlike Monin-Obukhov similarity, even near the ground the effect of h is taken into account. According to observation, the length scale of the vertical velocity is proportional to z at least near the ground, but the lateral component depends mostly on h alone. The length scale of the longitudinal component depends on z and h. 相似文献
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V. P. Yushkov 《Russian Meteorology and Hydrology》2013,38(12):818-827
The wind speed shear in the case of stable stratification in the linear part of the profile spreading high above the surface layer of constant flows is studied using the data of long-term sodar measurements in the atmospheric boundary layer. The wind speed shear in this part remains almost invariable during several hours at the significant change in parameters of the Monin-Obukhov theory. The length of this linear part can be associated with the layer of the critical Richardson number. In the case of the pronounced temperature inversion (with the positive gradient of more than 1°C per 100 m), the wind speed profile is close to the linear function in the most part of the nocturnal mixing layer. Proposed is a scale characterizing the height of the surface layer of constant flows. 相似文献
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Buoyancy fluxes in the marine atmospheric boundary layer (MABL) for the cloud street regime, observed during the Genesis of Atlantic Lows Experiment (GALE), have been analyzed using the technique of joint frequency distribution. For the lower half of the MABL, the results suggest that the buoyancy flux is mainly generated by the rising thermals and the sinking compensating ambient air, and is mainly consumed by the entrainment and detrainment of thermals, penetrative convection, and the entrainment from the MABL top.The results are compared to those from previous studies of mesoscale cellular convection (Air-Mass Transformation Experiment, AMTEX), the dry convective boundary layer, and the trade-wind MABL. For the lower MABL, the quadrant buoyancy fluxes, fractional coverages, and flux intensities are in good agreement with those of mesoscale cellular convection (AMTEX) and the dry convective boundary layer. The results suggest that, if the buoyancy flux is primarily driven by the temperature flux, the physical processes for generating buoyancy flux mentioned above are about the same for the lower boundary layers over land and ocean, even with different convective regimes. For the trade-wind MABL, the buoyancy flux is mainly driven by the moisture flux; the quadrant flux intensities are stronger than those of the other three studies except for the buoyant updrafts (thermals). These results suggest that the entrainment and detrainment of thermals are more effective in the trade-wind MABL than in the boundary layers driven by the temperature flux.Scale analysis of the buoyancy flux is in good agreement with that of AMTEX. For the lower half of the MABL, the buoyancy flux is mainly generated by the intermediate scale (200 m to 2 km), which includes the dominant convective thermals in the surface layer and the mixed layer. The scale smaller than 200 m is important only in the surface layer. The scale larger than 2 km, which includes the roll vortices, increases its significance upward. While most of the positive and negative fluxes are associated with the updrafts for the intermediate scale, the downdrafts are as important as updrafts for the larger scale.ST Systems Corporation, Lanham, MD, 20706, U.S.A. 相似文献
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Measurements of the fluctuations of wind, temperature and humidity were made with an instrumented aircraft at altitudes from 30 to 300m above Lake Ontario. The variations of the standard deviations of these fluctuations are examined. By applying Monin-Obukhov similarity theory based on local fluxes, it is shown that the vertical velocity, temperature and humidity fluctuations scale with the local Monin-Obukhov length. In the limit of free convection, 1/3 and –1/3 power laws are approached with constants of 1.2, 1.2, and 0.8 for vertical velocity, temperature and humidity, respectively. The von Karman scale lengths increase with height but were much larger than those found by Taylor et al. (1970). 相似文献