青藏高原近地层通量特征的合成分析   总被引：17，自引：0，他引：17  

李国平  段廷扬  巩远发  卢会国 《气象学报》2002,60(4):453-460

利用中日亚洲季风机制合作研究计划 ,设置在青藏高原东部地区的拉萨、日喀则、那曲和林芝 4地 1993年 7月～ 1999年 3月近 7a的自动气象站 (AWS)近地层梯度观测资料 ,确定出分季节的高原地表粗糙度和逐日的地面总体输送系数 ,以此为基础用总体输送公式对地面动量、感热和潜热通量进行了计算 ,并用合成方法分析了 1993～1999年高原近地层通量夏季、冬季的日变化和月变化特征  相似文献   

用变分方法估算淮河流域总体输送系数   总被引：13，自引：3，他引：10  

张述文  邱崇践  张卫东 《高原气象》2004,23(4):506-511

利用2001年6～7月间在安徽肥西的边界层观测资料,利用变分方法计算地面动量通量和感热通量,进而分别估算该处动量总体输送系数和感热总体输送系数。用变分方法计算的地面粗糙度为0.03m。在中性条件下,10m高处平均动量总体输送系数和感热总体输送系数分别为4.83×10-3和3.81×10-3,比值是1.27。总体输送系数具有明显的日变化特征,中午时段最大,夜晚最小;总体输送系数与大气稳定度存在明显关联,文中给出它们之间的拟合关系式;随着高度的增加总体输送系数减少,但减少幅度逐渐变小。  相似文献   

黑河试验区沙漠和戈壁的总体输送系数   总被引：42，自引：18，他引：42  

左洪超  胡隐樵 《高原气象》1992,1(4):371-380

本文利用黑河试验(HEIFE)1990年8月16日—9月15日的观测资料,对沙漠和戈壁的总体输送系数进行了研究。结果表明:沙漠和戈壁的中性总体输送系数分别为2.2×10~(-3)和1.6×10~(-3),对应的粗糙度分别为4.5×10~(-3)和1.7×10~(-3)m。中性总体输送系数随风速无明显变化。 文中还求得总体输送系数与总体理查逊数及粗糙度之间的拟合关系式。并利用黑河试验其它时段的观测资料对它的适用性做了初步检验。  相似文献   

青藏高原北麓河地区近地层能量输送与微气象特征   总被引：13，自引：9，他引：4  

钱泽雨  胡泽勇  杜萍  张艳武 《高原气象》2005,24(1):43-48

利用青藏高原北麓河冻土综合试验站自动气象站2002年5月30日～6月24日观测资料,计算分析了该地区近地层的地表能量平衡、地表加热场、感热、潜热、地表反照率、动量和热量总体输送系数等特征量场的变化特征,首次得到高原北麓河地区近地层能量输送和微气象特征。  相似文献   

高原降雨天气过程中总体输送系数的变化特征   总被引：5，自引：2，他引：3  

李国平  陶红专 《高原气象》2005,24(4):577-584

以中日亚洲季风机制合作研究计划设在西藏的4个自动气象站（AWS）获得的近6年（1995年7月-1999年6月）观测连续、时次密集的近地层大气梯度观测资料为基础,选取了高原中、东部夏季雨季的一些典型降雨过程,应用廓线-通量法计算了这些站降雨过程中每隔20min一次的总体输送系数,分析了其随层结稳定度、地表粗糙度以及在降雨天气过程中的变化特征。结果表明：总体输送系数的变化与近地层大气层结稳定度、地表粗糙度具有确定的、密切的关系;总体输送系数对降雨天气过程有明显的响应,但在与降雨过程的雨量峰值、降雨时段的对应上,各站的规律性略有不同。  相似文献   

那曲高寒草地总体输送系数及地面热源特征     

郑汇璇  胡泽勇  孙根厚  谢志鹏  严晓强  王奕丹  付春伟 《高原气象》2019,38(3):497-506

利用中国科学院那曲高寒气候环境观测研究站那曲/BJ观测点的野外观测数据,估算了青藏高原那曲地区典型高寒草地下垫面的热量和水汽总体输送系数以及地表大气相对湿度因子,在此基础上利用中国气象局那曲气象站1980-2016年的常规业务观测数据,采用总体输送法计算并分析了那曲高寒草地地表通量特征。研究结果表明:(1)那曲/BJ观测点地表大气相对湿度因子γ的数值在33%~62%,9月最大,2月最小,热量和水汽输送系数CH和Cλ的季节变化范围分别在1.6×10^-3~2.7×10^-3和1.0×10^-3~2.0×10^-3,两者存在较大的差异。(2)1980-2016年那曲高寒草地感热通量总体呈现减弱趋势,而潜热通量呈现增强趋势,导致地面热源变化趋势不明显;分阶段来看,感热通量的变化在2004年前后发生转折,转折点前后的趋势为先减弱后增加,潜热通量在1994-2005年下降趋势明显,这也导致地面热源在1995-2005年有一个明显的减少。(3)年内季节变化上潜热通量相较于感热通量更明显,地面热源的季节变化更依赖于潜热通量的季节变化。  相似文献   

峨眉山地区近地层微气象特征研究     

常娜  李茂善  王灵芝  龚铭  伏薇  舒磊 《高原气象》2022,(1):226-240

基于2019年12月至2020年11月峨眉山站梯度塔资料、辐射观测资料和地表通量资料,采用涡动相关法对峨眉山地区近地层的地表通量和蒸散发量的变化进行分析,并估算了零平面位移、空气动力粗糙度、空气热力粗糙度、动量通量输送系数和感热通量输送系数等重要的空气动力学和热力学参数.研究表明:近地面风速呈现高层高、低层低的特征,且...  相似文献   

陇中黄土高原半干旱区总体输送系数的特征   总被引：5，自引：2，他引：3       下载免费PDF全文

杨兴国-  张强  杨启国  王润元  刘宏谊  马鹏里 《高原气象》2010,29(1):44-50

利用在陇中黄土高原半干旱区2003年10月—2005年7月获得的近地层梯度观测资料,采用空气动力学法,计算了动量和感热总体输送系数。结果表明,陇中黄土高原半干旱区动量和感热总体输送系数均存在明显的日变化特征,夏季中午左右分别达到5.6×10-3和6.7×10-3。受下垫面植被的影响,在一年中呈现出双峰型特征,第一峰值出现在春小麦拔节—黄熟期,次高值出现在10月初。动量和感热总体输送系数平均值分别为2.9×10-3和3.1×10-3。当大气处于不稳定状态时,总体输送系数随着风速的增大而减小;相反当大气处于稳定状态时,随着风速的增大而增大。陇中黄土高原半干旱区的总体输送系数高于戈壁、平原草地和海洋下垫面的值,但低于青藏高原草地和城市下垫面的值。  相似文献   

黄土高原半干旱草地近地层湍流温湿特征及总体输送系数   总被引：3，自引：0，他引：3  

岳平  张强  赵文  王胜  史晋森  王若安 《高原气象》2015,34(1):21-29

利用兰州大学半干旱气候与环境观测站(简称SACOL站)2008年夏季晴天近地层湍流观测资料,分析了SACOL站近地层湍流温、湿统计特征,确定了大气动力学和热力学粗糙度长度,讨论了总体输送系数随大气稳定度的变化规律。结果表明,大气层结不稳定条件下,无量纲温度和比湿脉动方差与稳定度Z/L之间均满足-1/3次规律;大气层结稳定条件下,温湿脉动方差总体趋势是随大气稳定度增加而减小。水汽通量全天大于零,最大值为0.063 g·m-2·s-1,地表日平均蒸发量为1.9 mm。中性条件下,黄土高原半干旱草地动力学粗糙度长度为6.6×10-3m,热力学粗糙度为1.85×10-5m。大气层结不稳定条件下,CD平均值为4.4×10-3,CH平均值为3.9×10-3;中性条件下,CD和CH平均值分别为4.2×10-3和2.8×10-3;层结稳定条件下,CD平均值为3.1×10-3,CH平均值为2.1×10-3,表明总体输送系数随稳定度的增大而减小。  相似文献   

藏北高原草甸下垫面近地层能量输送及微气象特征   总被引：61，自引：9，他引：52  

马耀明  塚本修  吴晓鸣  玉川一郎  王介民  石川裕彦  胡泽勇  高洪春 《大气科学》2000,24(5):715-722

利用GAME/Tibet 1998年IOP观测资料,分析研究藏北高原草甸下垫面近地层的地面加热场、地表能量平衡、地面阻曳系数CD及感热通量整体输送系数CH等特征,得到了一些有关藏北高原草甸下垫面近地层能量输送及微气象特征结构的新认识.  相似文献   

青藏高原中部聂荣半干旱草地夏季近地层能量平衡与输送分析     

杨丽薇  高晓清  惠小英  周亚  侯旭宏 《气候与环境研究》2017,22(3):335-345

利用青藏高原中部聂荣地区草地下垫面2014年7~8月近地层气象要素梯度观测及湍流观测数据,分析讨论了该地区观测期间的基本气象要素特征、能量平衡特征以及能量输送特征,主要结论如下:(1)向下、向上短波辐射和净辐射日变化规律一致,向下、向上长波辐射日变化平缓。反照率呈"U"型分布,早晚大,中午小,聂荣夏季地表平均反照率为0.20。(2)在夏季白天,聂荣地区净辐射大部分以潜热的形式加热大气。考虑了土壤浅层热储存和垂直运动引起的平流输送后,能量闭合率由0.65提高到0.80,闭合率有显著的提高。(3)在不稳定层结下,动量总体输送系数CD平均值为4.7×10~(-3)和热量总体输送系数CH平均值为3.5×10~(-3);在稳定层结下,CD平均值为3.4×10~(-3),CH平均值为1.8×10~(-3);C_D和C_H在近中性层结下的平均值分别为4.30×10~(-3)和2.39 10~(-3)。  相似文献   

Determination of the Drag Coefficient over the Tibetan Plateau   总被引：7，自引：0，他引：7  

Li Guoping  Duan Tingyang  Wan Jun  Gong Yuanf  Shigenori Haginoy  Chen Longxun  Li Weiliang 《大气科学进展》1996,13(4):511-518

In this paper,a preliminary study is given on the drag (i.e.bulk transfer for momentum) coefficient,on the basis of data from four sets of AWS in Tibet during the first observational year from July 1993 to July 1994 according to China Japan Asian Monsoon Cooperative Research Program.The results show that the drag coefficient over the Tibetan Plateau is 3.3 to 4.4×103.In addition,monthly and diurnal variations of drag coefficient and the relationship among the drag coefficients and the bulk Richardson number,surface roughness length and wind speed at 10 m height are discussed in detail.  相似文献   

Aircraft measurements of boundary-layer turbulence over the central Equatorial Pacific Ocean     

Gary K. Greenhut  Bradford R. Bean 《Boundary-Layer Meteorology》1981,20(2):221-241

We analyze gust probe measurements obtained in the convective boundary layer over the central equatorial Pacific as part of the Equatorial Pacific Ocean Climate Studies (EPOCS) program. From the lowest level flights, the bulk transfer coefficients are found to be 1.1 × 10^-3 and 1.4 × 10^-3 for latent and sensible heat fluxes, respectively. Vertical profiles of water vapor density, potential temperature and wind velocity are obtained as are the profiles of the fluxes of latent and sensible heat and momentum. From the extrapolated profiles, we obtain surface fluxes of 120 W m^-2 and 13 W m^-2 for latent and sensible heat, respectively, and 0.11 N m^-2 for momentum. The 10 m drag coefficient is 1.5 × 10^-3. Two convergence boxes, north and south of the ITCZ, are analyzed. Enhanced convergence is found in the northern trades relative to the southern trades. The advective acceleration is found to be comparable in magnitude to the other terms in the horizontal equations of motion.  相似文献   

Characteristics of Momentum and Heat Transfer over Semiarid Grasslands with Different Grazing Intensities in Inner Mongolia, China          下载免费PDF全文

WANG Lei  LIU Hui-Zhi  Bettina KETZER  FENG Jian-Wu  Christian BERNHOFER 《大气和海洋科学快报》2011,4(5):264-269

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   

Atmospheric turbulent fluxes over snow     

B. B. Hicks  H. C. Martin 《Boundary-Layer Meteorology》1972,2(4):496-502

On March 26, 1971, eddy fluxes of momentum, sensible heat and water vapour were measured over Lake Mendota, Wisconsin, U.S.A., which was covered by an extensive snowfall. An evaporation rate of about 0.7mm day^–1 (2.2 mW cm^–2) was detected. Wind speeds were light and the atmosphere near the surface was highly stable. In these conditions, the average sensible heat transfer and Reynolds stress were -0.9 mW cm^–2 and 0.10 dyn cm^–2, respectively. Comparison with measured gradients of wind speed, temperature and humidity yield a drag coefficient of about 0.54 × 10^–3, and bulk transfer coefficients for sensible and latent heat of 0.41 × 10^–3 and 0.78 × 10^–3, respectively, applied to 10-m data. When corrected for the effect of atmospheric stability, these three coefficients become (in the same order) 1.2 × 10^–3, 0.9 × 10^–3 and 2.5 × 10^–3. The errors in these estimates are such that the drag coefficient is not significantly different from that corresponding to an aerodynamically smooth surface, while the heat coefficients are similar to those normally applied over liquid water surfaces.  相似文献   

黑河下游绿洲近地层湍流输送特征研究     

张艳武  黄静  吴统文 《气象学报》2009,67(3):433-441

分析2003年9月5-27日在黑河下游额济纳绿洲取得的近地面层湍流观测资料,讨论无量纲湍流方差与稳定度参数Z/L的关系.无量纲风速分量σu/u*、σv/u*和σw/u*在不稳定层结与稳定度Z/L满足1/3次方时,符合Monin-Obkuhov相似理论.在近中性时,σu/u*、σw/u*值比平坦下垫面的略小些,σv/u*值比平坦下垫面的略大.无量纲温度脉动方差和湿度脉动方差在对流状态下与Z/L满足-1/3次方,在稳定和不稳定层结下,随|Z/L|减小而增大.地面热量以感热输送为主,感热通量峰值约为250 W/m2,潜热通量的峰值为170 W/m2;夜间潜热通量较小,感热通量则出现负值.动量通量日间平均在0.2-0.3 N/m2,峰值为0.31 N/m2.黑河下游绿洲柽柳林动力学粗糙度比HEIFE戈壁及其他绿洲下垫面的大,中性时z0m=0.47551 m.中性状态下动量整体输送系数CD=22.2×10-3,不稳定层结时平均值CD=10.3×10-3,稳定层结时平均值CD=7.2 × 10-3.热量整体输送系数CH,中性状态下CH=3.2 × 10-3,不稳定层结时平均值为CH=3.3×10-3,稳定层结时平均值为CH=2.7×10-3.  相似文献   

西太平洋暖池区的海气通量及整体交换系数   总被引：3，自引：1，他引：2  

徐静琦  魏皓  顾海涛  武建平 《气象学报》1997,55(6):703-713

根据西太平洋海域弱风、高温、潮湿的大气状态特征,提出了在光滑面存在粘性副层气流中的廓线的层结订正方案。用此模式对西太平洋暖池区ＴＯＧＡＣＯＡＲＥＩＯＰ期间,在向阳红５号船（２°Ｓ,１５４°Ｅ）获取的海面风、温、湿梯度资料进行了处理。计算结果显示西太平洋暖池区贴水层气流中不稳定层结占５０％－８０％,其中很不稳定的占１０．３％;该海区海气通量和整体交换系数受层结影响远大于受风速的影响;海气通量和整体交换系数随不稳定程度增加而增大,在相同风速下量值可相差４倍以上;其变化范围为０．３×１０－３—３．２×１０－３。由此可见,层结的影响使它们的变化大于其它海区的结果。在ｕ１０＝０－１０ｍ／ｓ范围内,中性化整体交换系数平均为ＣＤＮ＝１．２×１０－３,ＣＨＮ＝１．１４×１０－３,ＣＥＮ＝１．１９×１０－３,与Ｌａｒｇｅ和Ｐｏｎｄ（１９８１,１９８２）不稳定条件的研究结果相差无几。  相似文献   

Air-sea bulk transfer coefficients in diabatic conditions   总被引：13，自引：0，他引：13  

Junsei Kondo 《Boundary-Layer Meteorology》1975,9(1):91-112

On the basis of recent data for the roughness Reynolds number of the sea surface, and using the Owen-Thomson theory on the transfers of heat and mass between a rough surface and the flow above it, the bulk transfer coefficients of the sea surface have been estimated. For a reference height of 10 m, the neutral-lapse transfer coefficient for water vapor is larger by only a few percent than that for sensible heat. When the wind speed at the 10-m height is u ₁₀>3 m s^–1, the coefficient for sensible heat C _H is larger by about 10% than that for momentum C _D . For u ₁₀<5 m s^–1, however, the value of C _D exceeds the value of C _H , and for u ₁₀=15 m s^–1 it is shown that C _H 0.8C _D . It may be also proposed that 10³ C _D =1.11 to 1.70, 10³ C _E =1.18 to 1.30, and 10³ C _H =1.15 to 1.26 for a range of u ₁₀=4 to 20 m s^–1. A plot of diabatic transfer coefficients versus wind speed is obtained by using a parameter of the sea-air temperature difference. For practical purposes, the coefficients are approximated by empirical formulae.  相似文献   

A theory for the scalar roughness and the scalar transfer coefficients over snow and sea ice   总被引：1，自引：0，他引：1  

Edgar L. Andreas 《Boundary-Layer Meteorology》1987,38(1-2):159-184

Although the bulk aerodynamic transfer coefficients for sensible (C _H ) and latent (C _E ) heat over snow and sea ice surfaces are necessary for accurately modeling the surface energy budget, they have been measured rarely. This paper, therefore, presents a theoretical model that predicts neutral-stability values of C _H and C _E as functions of the wind speed and a surface roughness parameter. The crux of the model is establishing the interfacial sublayer profiles of the scalars, temperature and water vapor, over aerodynamically smooth and rough surfaces on the basis of a surface-renewal model in which turbulent eddies continually scour the surface, transferring scalar contaminants across the interface by molecular diffusion. Matching these interfacial sublayer profiles with the semi-logarithmic inertial sublayer profiles yields the roughness lengths for temperature and water vapor. When coupled with a model for the drag coefficient over snow and sea ice based on actual measurements, these roughness lengths lead to the transfer coefficients. C _E is always a few percent larger than CH. Both decrease monotonically with increasing wind speed for speeds above 1 m s^–1, and both increase at all wind speeds as the surface gets rougher. Both, nevertheless, are almost always between 1.0 × 10^–3 and 1.5 × 10^–3.  相似文献