共查询到19条相似文献,搜索用时 265 毫秒
1.
西太平洋热带海域湍流通量以及海面粗糙度和曳力系数的观测研究 总被引:2,自引:0,他引:2
本文利用1987年西太平洋热带海域考察期间系留气艇所取得的廓线资料,用相似理论半经验的通量-廓线关系,给出这一海域的湍流热通量和动量通量,并且对海面粗糙度长度Z_0,曳力系数C_D及其与风速的关系等作了初步的研究,给出了一些经验公式,并与其他研究者的研究结果作了比较。 相似文献
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本文利用1987年西太平洋热带海域考察期间系留气艇所取得的廓线资料,用相似理论半经验的通量-廓线关系,给出这一海域的湍流热通量和动量通量,并且对海面粗糙度长度Z_0,曳力系数C_D及其与风速的关系等作了初步的研究,给出了一些经验公式,并与其他研究者的研究结果作了比较。 相似文献
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关于海面湍流通量参数化的两种方案试验 总被引:2,自引:0,他引:2
本文对海气间湍流通量计算的参数化进行了两个方案的试验。第一个是对气候模式CCM3中的计算方案作了改进,用半解析的计算方法代替纯迭代的方法,减少了计算量而达到相同精度。第二个是用Brutsaert提出的廓线函数计算海面通量,达到了当前最精确模式相同的精度。这二种方案均可用于大气模式或用于由实测气象资料求通量。 相似文献
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根据1998年南海季风试验西沙海面铁塔梯度观测资料,利用总体(Bulk)系数法和多层结通量廓线法对西沙海面的海-气通量进行了估算,得出两种方法估算的潜热通量、感热通量基本一致。总体系数法估算的潜热通量比多层结通量廓线法略大1~3 W·m-2,感热通量小0~1.5 W·m-2。一般而言,季风爆发期间潜热输送逐渐增加;季风爆发前期夜间潜热通量比季风爆发后期大;季风爆发后期,白天潜热通量明显大于爆发初期和中期。感热通量季风爆发前海面向大气输送,爆发后期大气向海面输送。动量通量和摩擦速度随风速增加。 相似文献
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多层四流球谐函数算法的构建及在大气辐射传输模式中的应用 总被引:1,自引:0,他引:1
为了在不大幅度增加计算成本的情况下提高大气辐射传输计算的精度,利用单层四流球谐函数结合多层二流累加法,构造了可用于多层大气的四流球谐函数算法。为了比较与其他辐射传输算法的差异,引入48流离散纵坐标算法作为比较标准,Eddington 近似、四流离散纵坐标算法作为比较对象。在真实大气廓线条件下,计算了晴空和有云大气顶向上辐射通量、地表向下辐射通量以及加热率廓线。得出以下结论:在晴空情况下,与作为标准的48流离散纵坐标法相比,Eddington 近似、四流离散纵坐标法和新构造的四流球谐函数方法加热率绝对误差都小于0?3 K/d;向上、向下辐射通量的相对误差分别小于1%和0?6%。这表明在晴空情况下,3种算法对加热率的计算精度差别不大;对辐射通量的计算精度,两种四流近似算法比传统的 Eddington 近似更为精确。在有云情况下,与48流离散纵坐标法相比,四流球谐函数和四流离散纵坐标法计算的云顶加热率相对误差小于1%,而 Eddington 近似计算的云顶加热率相对误差大于5%。结果表明:新构造的四流球谐函数算法可用于大气辐射传输模式,在不大幅度增加计算成本的同时,提高了晴空大气的整体辐射计算精度和有云大气辐射加热率的计算精度。 相似文献
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本文将2009年7月高原考察获得的一些观测资料与T639资料进行对比分析,得到以下结论:通过比较拉萨、那曲、定日三地探空观测和T639资料给出的风场、湿度场和温度场廓线发现,两者给出的风场廓线形态比较一致,风速大小略有差异;整层相对湿度的差异都很大,尤其是0000UTC时刻相对湿度廓线的形态和值都与探空观测有着显著差异,几乎没有体现出逆湿的特性;温度场的差异主要体现在边界层大气中。地面自动站资料与T639地表资料的比较结果是,T639资料给出的高原腹地大部分区域温度和比湿都比观测值偏低,而风速的分布形态存在显著差异。地表通量的日变化特征显示,由于下垫面状况的差异,拉萨与林芝和青海湖地区相比,感热通量和动量通量大些,潜热通量小些。 相似文献
9.
云三维结构对加热率廓线及通量影响的模拟 总被引:1,自引:0,他引:1
大气加热率强度与结构是驱动全球大气环流的关键因素,实际加热率分布与云三维结构密切相关。作者使用三维蒙特卡洛辐射传输模式,模拟计算了云分辨模式所得3个典型三维云场的加热率廓线及通量;定义了两个参数来同时描述加热率廓线的垂直分布和强度,通过与独立像素近似算法对比,定量统计分析了高分辨率下云三维结构对辐射的影响。结果表明,在高分辨率条件下云三维结构对加热率廓线和通量影响十分显著,且不同结构云场所体现的影响各具特点,提出需要考察现有大气模式中云三维结构对当前所用加热率计算方案的订正方向。 相似文献
10.
FY 2D静止气象卫星OLR反演模式 总被引:1,自引:0,他引:1
介绍FY2D卫星OLR反演模式的建立过程以及模式与NOAA卫星OLR反演模式的相互对比,包括:地球大气红外辐射传输方程,全球3812条大气廓线的大气顶射出辐射率、射出长波辐射通量密度的模拟计算,3812条廓线FY2D窗区通道1、2、水汽通道的通道辐射率模拟计算, 通道辐射率的临边变暗订正关系式的确立、3个通道波段的窄波段辐射通量密度的模拟计算。通过3812条廓线的窄波段辐射通量密度与OLR的XY坐标散点图,建立OLR回归关系式;并通过NOAA17 AVHRR通道5 OLR反演模式与FY2D窗 相似文献
11.
This study investigated the relationships between sea surface temperature(SST) and weather phenomena in different seasons in the Bohai region(China). Five categories of weather phenomena were screened(i.e., fine, cloudy,foggy, rainy and windy conditions) and their relationships with the difference between air temperature and SST observed at Oil Platform A during 2003-2010 were analyzed statistically. The effects of the difference between air temperature and SST in different weather phenomena were examined using the flux method of the atmospheric boundary layer and a formula for the difference between air temperature and SST. The results revealed diurnal variation of the difference between air temperature and SST of-1.0 to +1.0 ℃, i.e., air temperature above the sea surface is subtracted from the SST in corresponding weather phenomena in different seasons in the Bohai region. Moreover,according to the formula for the difference between air temperature and SST, wind and shortwave radiation are the most important factors in terms of the effects of SST on weather processes. In conclusion, the effects of SST on weather phenomena are manifest via the exchange of momentum and energy from sea to air. When the air temperature above the sea surface is lower than the SST, the SST helps develop mesoscale convection systems within the synoptic system through moisture and sensible heat fluxes. When the air temperature above the sea surface is greater than the SST,synoptic systems transfer energy into the sea through heat flux, which affects SST variation. Moreover, a mesoscale convection system will weaken if the synoptic system passes over a colder underlying surface. 相似文献
12.
Emmanuel Guilloteau 《Boundary-Layer Meteorology》1998,87(1):147-160
A new method for computing the surface transfer coefficients is proposed, based on state-of-the-art empirical flux-profile relationships. The influence of the roughness length ratio is first demonstrated with the classical iterative calculation method. Then a non-iterative algorithm is developed, taking into account the difference between momentum and heat roughness lengths.The new method is validated by comparison with the reference iterative computation. The large gain-in computer processing time (CPU) time gain for the calculation of surface fluxes in Eulerian grid models is finally assessed. 相似文献
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D. Bala Subrahamanyam Radhika Ramachandran S. Indira Rani P. K. Kunhikrishnan B. Prasad Kumar 《Boundary-Layer Meteorology》2008,127(2):333-344
Surface-layer meteorological observations obtained from oceanic buoys over the Korean Strait and the Yellow Sea are used to
estimate surface-layer turbulent fluxes of heat, moisture and momentum over the East-Asian Marginal Seas. Special emphasis
is paid towards explanation of the impact of the Tsushima warm current flowing through the Korean Strait on air–sea interface
fluxes. During the active phase of the Tsushima warm current, when the difference in sea surface temperature and air temperature
becomes as large as 8°C, the sensible heat flux increases to a value of about 135 W m−2, while the latent heat flux is around 200 W m−2. The study attempts to broaden our understanding on the air-sea interaction processes over the Yellow Sea and Korean Strait. 相似文献
14.
M. Zhao 《Meteorology and Atmospheric Physics》2002,79(1-2):47-56
Summary
The computation of the fluxes between ground surface and air in atmospheric models is based on the assumption that the surfaces
parameters are horizontally homogeneous. In reality, the surface is heterogeneous, inducing a difference between the computed
and realistic fluxes. Assuming that the distributions of temperature and humidity of the surface are normal, the difference
of the fluxes for homogeneous and heterogeneous surface is found theoretically. The results show that the effect of the heterogeneity
on the radiation flux is small, but attains a certain degree on the sensible and latent heat fluxes. However, this effect
on the heat fluxes is not great when the standard deviation of the distribution of the surface parameters also is small. Only
in case of great standard deviation, the difference may attain several W/m2 even the order of magnitude of 10 W/m2. Usually the computed sensible and latent heat fluxes are slightly greater for the heterogeneous case than that for homogeneous
case, but when the interaction between the temperature and humidity of the surface is considered, the reverse is true.
Received January 18, 2001 Revised July 31, 2001 相似文献
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J. F. Gueremy 《Meteorology and Atmospheric Physics》1990,44(1-4):219-250
Summary In this paper we have studied the low frequency variability of the sensible and latent heat flux over the Indian monsoon area. We have used an atmospheric energy budget (vertical integrated heat sources and moisture sinks), as well as the similarity theory in order to compute the surface fluxes on a darly basis. Mainly, the three following data sets were used: the First GARP Global Experiment analyzed data, the TIROS-N outgoing longwave radiation data and the Monsoon Experiment precipitation data.Our three main findings are the following. First, the variability of the temperature and the specific humidity at the surface is more important over the land than over the sea on the intraseasonal time scale (30% over land, but 20% over sea). For the wind an energy peak appears clearly around 30–40 days. The surface fluxes show an uneven variance percentage field (10% to 40%); the energy peaks stretch from 10 to 40 days. Second, the wind has a significant influence on the surface fluxes, except at some locations exclusively over the land areas. Of the temperature and the specific humidity, the temperature is the one which influences the fluxes the most. (This influence may be very strong over land.) The specific humidity may have a significant influence, over the land and sea, at the same time. Thus, one cannot neglect the influence of temperature and specific humidity over land on the intraseasonal time scale. Third, we have found a close relation between the propagation of low frequency waves and the propagation of surface flux patterns. This may suggest a feedback mechanism which relates surface processes to the northward propagation of these waves over India.With 17 FiguresOn leave from Etablissement d'études et de recherches méteorologiques Paris, France 相似文献
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Through the use of the hourly wind, air temperature and humidity, sea surface temperature data measured on board the observing vessel Moana Wave and buoy in the warm pool of western Pacific during the IOP of TOGA COARE, we compute the fluxes over sea surface and analyze the characteristics of the variation ofthe latent heat flux with sea surface temperature. During weak rather than strong wind periods a maximum valueof latent heat flux appears at some points of SST, which is caused mainly by the variations of wind, then by the humidity difference between air and sea and the transfer coefficient with SAT. Using correlation analysis. we also analyze the relationship between the fluxes and meteorological elements during weak wind periods. wester lywind burst periods, and convective disturbed periods etc. The main conclusions are that the latent heat flux ismainly determined by wind, sensible heat flux by the potential temperature difference between air and sea and the momentum flux by wind. The precipitation affects the sensible heat flux through the potential temperature difference and wind. 相似文献
17.
CAM3模式海气湍流通量参数化的改进及其应用 总被引:1,自引:0,他引:1
通过对流性阵风参数化方法,在CAM3原有海气湍流通量参数化方案(CAM3方案)中引入边界层自由对流和降水深对流对海表湍流通量的贡献,改进了CAM3模式的海气湍流通量参数化方案(CAM3 ME方案).在此基础上,利用观测海温积分改进的CAM3模式,分析改进模式对冬(DJF)、夏季(JJA)大气环流异常的模拟性能.结果表明,采用改进的海气湍流通量参数化方案,模式对冬(DJF)、夏季(JJA)大气环流异常年际变化的模拟能力有了很大提高,尤其是冬季(DJF)北太平洋和北美大陆地区以及夏季(JJA)南半球海洋上空. 相似文献
18.
Andrey A. Grachev Laura S. Leo Harindra J. S. Fernando Christopher W. Fairall Edward Creegan Byron W. Blomquist Adam J. Christman Christopher M. Hocut 《Boundary-Layer Meteorology》2018,167(2):181-210
Atmospheric turbulence measurements made at the U.S. Army Corps of Engineers Field Research Facility (FRF) located on the Atlantic coast near the town of Duck, North Carolina during the CASPER-East Program (October–November 2015) are used to study air–sea/land coupling in the FRF coastal zone. Turbulence and mean meteorological data were collected at multiple levels (up to four) on three towers deployed at different landward distances from the shoreline, with a fourth tower located at the end of a 560-m-long FRF pier. The data enable comparison of turbulent fluxes and other statistics, as well as investigations of surface-layer scaling for different footprints, including relatively smooth sea-surface conditions and aerodynamically rough dry inland areas. Both stable and unstable stratifications were observed. The drag coefficient and diurnal variation of the sensible heat flux are found to be indicators for disparate surface footprints. The drag coefficient over the land footprint is significantly greater, by as much as an order of magnitude, compared with that over the smooth sea-surface footprint. For onshore flow, the internal boundary layer in the coastal zone was either stable or (mostly) unstable, and varied dramatically at the land-surface discontinuity. The offshore flow of generally warm air over the cooler sea surface produced a stable internal boundary layer over the ocean surface downstream from the coast. While the coastal inhomogeneities violate the assumptions underlying Monin–Obukhov similarity theory (MOST), any deviations from MOST are less profound for the scaled standard deviations and the dissipation rate over both water and land, as well as for stable and unstable conditions. Observations, however, show a poor correspondence with MOST for the flux-profile relationships. Suitably-averaged, non-dimensional profiles of wind speed and temperature vary significantly among the different flux towers and observation levels, with high data scatter. Overall, the statistical dependence of the vertical gradients of scaled wind speed and temperature on the Monin–Obukhov stability parameter in the coastal area is weak, if not non-existent. 相似文献
19.
A new surface-flux parameterization is presented and its impact on climate simulations with the Canadian Centre for Climate Modelling and Analysis (CCCMA) general circulation model (GCM) is discussed. The parameterization is based on the Monin-Obukhov similarity theory using well established flux-profile relationships for the unstable conditions. However, recently proposed new relationships are used in stable conditions. The new formulation allows different roughness lengths for heat and momentum, and gives transfer coefficients that are in agreement with Monin-Obukhov similarity theory. It also includes a parameterization for the free-convective boundary layer, which often occurs over warm surfaces within light winds. In circumstances where the surface layer is not neutrally stratified the proposed flux parameterization yields surface transfer coefficients that are different from those resulting from the standard surface flux formulation used in the GCM. The most marked effects of implementing the new formulation in the GCM are found over land and adjacent oceanic regions in winter where significant differences are found in the surface heat and moisture fluxes and surface temperatures. 相似文献